CN1714048B - Mobile desalination plants and systems, and methods for producing desalinated water - Google Patents

Abstract

Systems, methods, and apparatus for desalinating water are provided. A vessel includes a water intake system, a reverse osmosis system, a concentrate discharge system, a permeate transfer system, a power source, and a control system. The concentrate discharge system includes a plurality of concentrate discharge ports.

Description

Mobile desalination plants and system and the method for producing desalted water

Priority request

The application requires the US Patent provisional application 60/416 based on submission on October 8th, 2002,907, the name of submitting on June 3rd, 2003 is called the U.S. Patent application 10/453 of " mobile desalination plants and system--a kind of method of producing desalted water ", be converted to US Patent provisional application (application number :) on July 14th, 206 and 2003.The application requires above-mentioned all benefit of priority, and each above-mentioned preceence is at this all complete list of references as the application.

Technical field

The present invention relates to a kind of system, method and apparatus of water treatment.Embodiment comprises removal undissolved solid thing and the water desalination of pollutants and system, the method and apparatus of purifying treatment from seawater and salt solution.Can further utilize system of the present invention to supply drinking water or pure water from seawater or salt solution water source.

Background technology

The mankind have just set up complete water supply system as far back as period in time immemorial.Can trace back to Ante Christum 2000 about the practice of water treatment, just relevant for using copper vessel to be filled with water, water be placed under the sunlight cruelly in the medical science works of Sanskrit, utilize charcoal filtering water, and sewage is boiled with record suitable for drinking etc.

Afterwards, produced significant technological advance in the perfect drinking water treatment twice setting up.1685, Italian physicist Lu Antonio Porzio designed first cover multistage filter.Before this 1680, Anton Van Leeuwenhoek develops microscope.Along with making to detect germ and filter them from water by microscope, microscopical discovery becomes possibility.The first cover water treatment plant by John Gibb be established in Scottish small town Paisley in 1804 (Paisley, Scotland).In 3 years, in the middle of the user of Scotland Paisley that filtered water is delivered directly to.

1806, the large-scale water treatment equipment that a cover uses sandstone and charcoal to make filter began to put into operation in Paris, and this equipment needed once upgrade in per 6 hours, and the power of water pump comes from horses and drives with class Three's alternating mode.Former water is placed 12 hours before filtration.

The seventies in 19th century, the germ that Robert doctor Koch and Joseph doctor Lister have confirmed to be present in the water supply can cause the generation of disease, and requires more the actv. way that former water is handled.1906, in French east, ozone was used as disinfectant first.After several years, in the U.S., the waterworks of Jersey City (JerseyCity) became first unit that uses sodium hypochlorite that water supply is carried out disinfection of the U.S. in 1908.In the same year, the Bubbly Creek factory that is positioned at Chicago, Illinois also uses chlorhexidine-containing disinfectant first, after many decades between, for improve filtering and the efficient of sterilization has been carried out a large amount of work.

To the twenties in 20th century, the progress of filtering technique makes the water that obtains pure, clean, aseptic, deposit-free, no particulate matter become possibility.During World War II, allied power army is for carrying out desalting processing for army provides fresh potable water to seawater in the arid area.Nineteen forty-two, U.S. public health bureau has adopted the first cover drinking water standard, and membrane filter is used for bacteriological analysis is is also checked and approved in nineteen fifty-seven.

To phase early 1960s, state-owned 19, the 000 cover municipal water supply systems that surpass in the whole America put into operation.Along with the formulation of 1974 " drinking water safety bill ", Fed Federal, public health service and water-supplying unit shoulder to the U.S. jointly safe water are provided.

The whole world all exists shortage on drinkable drinkable water, agricultural water, irrigation water and water for industrial use.In some places of the earth, the lasting arid and the water scarcity of continuity have delayed economic growth, and finally might cause abandoning of some population center.In other places of the earth,, contain pollutants in these water from the chemical substance in industrial source and the agricultural production although there is sufficient water source to exist.

The world obtains the challenge that is being faced with several respects on the ability of following water demand the mankind.Nowadays the zone that inhabits serious water shortage above 300,000,000 population is arranged, and this numeral may reach 3,000,000,000 in 2025.According to the report of United Nations, it is too poor that nearly 9500 children in the every day whole world die from drinking water quality.Increase of population has also increased the demand to drinking water supply simultaneously, yet utilizable water source does not but change in the global range.Between decades subsequently, except the maintenance at the efficient that improve to repeat water and water source, the human needs seeks extra water source supply to keep city, rural area, the prosperity of agricultural and the protection of environment with certain cost and mode.

Past 50 in the period of to the demand growth of water 300%.Precipitation tabulation is all being experienced in each piece continent, particularly in the southern llanura and the southwestward of the U.S., and northern Africa, Europe, south, whole Middle East, South East Asia, China and other are regional.

Evaporation and reverse osmosis are two kinds of conventional approachs that seawater or saline treatment become drinkable water.Distillation methods comprises the heating of seawater or salt solution, with the water vapor condensation that produces, and distillment separated.Reverse osmosis is that the high relatively hydraulic pressure of a kind of film processing mode use is removed the salinity in the solution as power.Salt ion or other pollutants are got rid of or exclusion by reverse osmosis membrane, and pure water is passed through film.About dissolving salt of 95% to 99%, silicon, colloid, biological substance, dirt and other contaminants during reverse osmosis can be removed and anhydrate.

The sea is unique infinite water source supply.Utilize the continental rise factory of One's name is legion to carry out that seawater desalination is treated to main population center or large-scale engineering irrigation supplies water, also have many problems.It is huge to utilize the distillation mode to carry out the often used up energy of continental rise factory that seawater desalination handles.

The continental rise factory that utilizes mode of reverse osmosis to carry out the seawater desalination processing will produce the blowdown of separating that contains dissolving salt of huge amount from seawater.This blowdown, be also referred to as concentrate, contain the salt of high concentration, as sodium chloride, sodium bromide etc. and other dissolving salt, just simply these concentrates are discharged into the peripheral waters of continental rise desalination plant, and will finally kill the marine life in these surrounding sea areas and destroy ecology environment.In addition, the density of the concentrate that emits from continental rise reverse osmosis desalination factory is greater than sea water density, thereby around they directly are discharged into factory in a conventional manner during the marine site, these concentrates will deposit.

Even do not consider the problem of halobiontic survival in surrounding waters of continental rise reverse osmosis water desalination factory and eco-environmental impact,, near the net result of the marine site continental rise factory discharging concentrate pollutes film in the counter-infiltration system thereby also can being the salinity that improved factory's water inlet.If the film in the counter-infiltration system is by gross pollution, it just must be replaced and remove these filthy materials.Under opposite extreme situations, filthy material can't be removed, and just only abandons these films.

The result of above-mentioned factor is that the drinkable water cost that is come out by continental rise reverse osmosis desalination plant produced is huge, and produces great engineering problem because of handling effluent.Therefore, although the water supply shortage in the whole world, also having only a fraction of water supply in the world is to take to obtain pure water by the method for reverse osmosis.Thereby, exist a kind of like this demand, realize the method and system that a kind of energy is continuous, failure-free provides drinkable water by a kind of desalting technology that can as continental rise reverse osmosis deaslination factory, not produce engineering science and environmentology problem exactly.

Known boat-carrying water quality desalting system is design and runs on the boat-carrying consumption of water, thereby also carries out design and running according to various maritime affairs standard.The maritime affairs standard of water quality desalination system all wants looser than regulations, standard and the requirement of the design and operation of management continental rise desalination plant and system, especially compared to the U.S. and the subordinate of United Nations the World Health Organigation issued.Aggravation along with global drinkable water lacks exists the demand that alleviates this shortage.Therefore, exist the demand that the method and system of desalted water can be provided for continental rise consumption at sea, the production of desalted water, store, keep and transport can with those manage design and running continental rise desalted water factory, system and water quality criteria regulations, standard require consistent.

Summary of the invention

The present invention has overcome above-mentioned the deficiencies in the prior art and a kind of system, equipment and method of supplying water is provided.A kind of system in this invention can be advantageously used in supplying drinkable water, drinkable water and/or water for industrial use.

Include boats and ships in the system among the present invention.These boats and ships comprise that it is used for when floating on ocean, lake, rivers, straits, bay, rivers mouth and lagoon that water purifies and/or system, facility and the method for desalination.The water of producing on these boats and ships can be transported to land by carrier, pipeline, transmission cabin and similar mode.Water is the loose packed mode before conveying and/or is loaded in the freight container.Water can be stored in before conveying and produce ship, follow in ship and/or other storage mode.

Method among the present invention is production water outlet aboard ship and these water is transported to land, comprises drinkable water or life, industry or agricultural water.This method also comprises storage and/or packs these water.

Facility among the present invention comprises that ship and related being used to produce, carry, store, refresh and/or pack the facility of these water.The embodiment of facility of the present invention is described in detail at this.

System and method among the present invention can use the facility among the present invention and or utilize other facility or equipment.

Embodiments of the invention can be taked extensively different form.In the one exemplary embodiment, boats and ships include water inlet system, counter-infiltration system, concentrate exhaust system, infiltration migration system, power supply and control system.Water inlet system comprises into water and intake pump.Counter-infiltration system comprises high pressure pump and reverse osmosis membrane.Counter-infiltration system and water inlet system link.The concentrate exhaust system comprises many concentrate discharge sides.Infiltrate transfer system and comprise a transfer pump.The concentrate exhaust system is connected with counter-infiltration system with the infiltration transfer system.Power supply is connected with the pump of water inlet system, counter-infiltration system, infiltration transfer system.Control system is connected with power supply with water inlet system, counter-infiltration system, concentrate system, infiltration transfer system.

In further one exemplary embodiment, the method for producing infiltration on floating structure comprises produces infiltration, wherein produces concentrate and is discharged into peripheral waters.Concentrate discharges by the concentrate exhaust system that contains many discharge sides.

In another one exemplary embodiment, a kind of system includes first boats and ships, and these boats and ships contain method of permeating production and the method that concentrate is mixed with seawater, and the mode that infiltrate is transmitted to the continental rise delivery system from these first boats and ships.

In another one exemplary embodiment, a kind of system that provides mitigation to serve by marine environment comprises first boats and ships and the mode of carrying desalted water to seashore.These first boats and ships can be used for producing desalted water.

In another one exemplary embodiment, a kind of system that alleviates desalination system peculiar to vessel (output is given birth to infiltrate and concentrate) environmental concerns under marine environment comprises mode and a kind of concentrate temperature adjusted to and hull peripheral waters temperature cooresponding mode of a kind of adjustment by salt index in the concentrate of hull waters discharging towards periphery.

In another one exemplary embodiment, a kind of method comprises provides exercisable first boats and ships that are used to produce infiltrate and mixed concentrated liquid, and carries this infiltrate from these first boats and ships to the continental rise delivery system.

In further one exemplary embodiment, a kind ofly provide the method for relief to the devastated, comprise providing can be used for first boats and ships producing desalted water and desalted water is carried to seashore.These first boats and ships comprise first displacement.

In further one exemplary embodiment, a kind of method that alleviates desalted water (treating process of this desalted water produces infiltrate and concentrate) environmental concerns comprises the content that reduces salinity in the concentrate, and the concentrate temperature is adjusted to suitable with the waters temperature of hull periphery discharging concentrate.

In further one exemplary embodiment, a system comprises boats and ships, and these boats and ships comprise energy-producing device and from the continental rise device of these boats and ships to continental rise delivery system conveying capacity.

In further one exemplary embodiment, a system comprises the boats and ships that can be used for producing desalted water, carries the device of desalted water from these boats and ships to the continental rise delivery system, and the device that transmits electric power to continental rise electric power delivery system from these boats and ships.

In further one exemplary embodiment, boats and ships comprise hull, and this hull comprises first surface and second surface, produce the device of desalted water, the device that concentrate is mixed with seawater, and the device of storing this desalted water.The device of this storage of water includes a water tank that is placed in the described hull.This water tank comprises first surface and second surface.The second surface of this water tank separates mutually with the first surface of this hull.

In further one exemplary embodiment, a kind of method comprises providing and can be used for energy-producing boats and ships, and energy is transmitted to the continental rise delivery system from these boats and ships.

In further one exemplary embodiment, a kind of method comprises provides the boats and ships that can be used for producing desalted water and generating, the desalted water that these boats and ships are produced is carried to the continental rise delivery system, and the electric power that these boats and ships are produced transmits to continental rise electric power distribution network.

In further one exemplary embodiment, a kind of method comprises the production desalted water, concentrate is mixed, desalted water is stored in the water tank with seawater.This water tank is positioned in the hull of boats and ships, and this hull comprises first surface and second surface.This water tank comprises first surface and second surface.The second surface of water tank separates mutually with the first surface of hull.

An advantage of the invention is and can be used for overcoming water scarcity.

Another advantage of the present invention provides a kind of marine desalter than continental rise desalter cost less.

Another advantage of the present invention provides a kind of safer desalter.

Another advantage of the present invention is to alleviate desalter environmental concerns on every side.

Another advantage of the present invention is to discharge salt content concentrate cooresponding with it in the waters around desalter.

Another advantage of the present invention is the waters exhaust temperature concentrate cooresponding with it around desalter.

Another advantage of the present invention is to provide a large amount of desalted waters to seashore and place, ocean Anywhere in the world, or provides desalted water by delivery system to the on-site distant place of water body.

Another advantage of the present invention is to provide relief to the devastated.

Another advantage of the present invention provides the movably production and the storage of desalted water.

Another advantage of the present invention is the construction of land Infrastructure can be minimized.

Another advantage of the present invention provides a kind of time ratio continental rise desalter desalter still less of building.

Another advantage of the present invention provides a kind of desalter that can move and avoid disaster and disaster.

Another advantage of the present invention is to transmit the water of emergency service and pre-packing.

Another advantage of the present invention is to remedy aquifer and wetland.

Another advantage of the present invention is to provide a kind of federation strategic water storage system.

But another advantage of the present invention provides a kind of trade and transportable surplus water.

Another advantage of the present invention provides the design of a kind of renewable and revisable medelling water factory.

Another advantage of the present invention is to provide electric power to the energy scarcity area.

Another advantage of the present invention is on unshiping when carrying desalted water the generating and the seashore that transmits electric power.

Another advantage of the present invention be can be by changing different scales ship and/or factory and the desalted water of different total amounts is provided to the somewhere.

Another advantage of the present invention is the position that can reorientate water inlet and/or discharging concentrate as required.

Another advantage of the present invention is according to the standard of continental rise desalination system and factory and requires to carry out production, storage and the preservation of desalted water aboard ship.

Description of drawings

Accompanying drawing helps to set forth the embodiment among the present invention as the part of present specification.In the accompanying drawing, identical numeral number is used to indicate identical element in the text.

Figure 1A is the lateral plan of boats and ships described in embodiment among the present invention.

Figure 1B is the planar view of boats and ships among Figure 1B.

Fig. 2 is the scheme drawing of the system in the one embodiment of the invention.

Fig. 3 is the upward view of boats and ships among Figure 1A.

Fig. 4 is the lateral plan of boats and ships described in another embodiment of the present invention.

Fig. 5 A is the transparent view of demineralizer in the one embodiment of the invention.

Fig. 5 B is along the section-drawing of the gravity flow screen of I-I line among Fig. 5 A.

Fig. 6 is the lateral plan of boats and ships described in another embodiment of the present invention.

Fig. 7 is the front elevation of boats and ships described in another embodiment of the present invention.

Fig. 8 is the scheme drawing of system described in the one embodiment of the invention.

Fig. 9 is the transparent view of mixing channel described in the one embodiment of the invention.

Figure 10 is the birds-eye view of boats and ships described in the another embodiment of the present invention.

Figure 11 is the birds-eye view of boats and ships described in the another embodiment of the present invention.

Figure 12 is the birds-eye view of boats and ships described in the another embodiment of the present invention.

Figure 13 is the scheme drawing of system described in the one embodiment of the invention.

Figure 14 is the scheme drawing of system described in the another embodiment of the present invention.

Figure 15 is the scheme drawing of system described in the another embodiment of the present invention.

Figure 16 is the scheme drawing of system described in the another embodiment of the present invention.

Figure 17 is the scheme drawing of system described in the another embodiment of the present invention.

Figure 18 is the scheme drawing of system described in the another embodiment of the present invention.

Figure 19 A is the birds-eye view of boats and ships described in the one embodiment of the invention.

Figure 19 B is along the cutaway view of I-I line among Figure 19 A.

Figure 20 A is the chart of method described in the one embodiment of the invention.

Figure 20 B is the chart of another embodiment of method described in Figure 17 A.

Figure 20 C is the chart of another embodiment of method described in Figure 17 A.

Figure 21 is the method described in another embodiment of the present invention.

Figure 22 is the method described in another embodiment of the present invention.

Figure 23 is the method described in another embodiment of the present invention.

The specific embodiment

The invention provides system, the method and apparatus of producing water.

Comprise among the embodiment of system of the present invention: the boats and ships of production water and the moisture of producing are fitted on end user's distribution system.This distribution system comprises the equipment that pumping, pipe send, store, transport and pack or the water that is used for being produced on the ship distributes.

In this specification sheets, unless specialize, the numeral of stating dosis refracta and reaction conditions etc. as that is useful on all is understood that " approximately ".Equally, unless opposite explanation is arranged, the numerical parameter in following specification sheets is an approximate value, and they can be sought the desired characteristic of acquisition and change according to the present invention.At all the restriction is equal to theoretical utilization to the claim scope, and it is legal that each numerical parameter should be interpreted as at least according to getting of the quantity of the significance of report and suitable routine.

Be similar to although set forth the digital scope and the parameter of broad range of the present invention, the numerical value in concrete illustrations is accurate as much as possible.Certain any digital value all can comprise certain error inevitably because of the standard deviation of different test method.In addition, all scopes disclosed herein all should be understood that any numerical value and be contained in wherein attached scope and each numeral between these end values.For example, described scope is 1 " to 10 ", just is interpreted as being included in minimum value 1 any numerical value and all attached scopes in (and itself) between the maxim 10; That is to say, all from minimum value 1 or on the beginning attached scope, as 1 to 6.1, and all end at maxim 10 or under attached scope, as 5.5 to 10, and any number range that originates between this end points, as 2 to 9,3 to 8,3 to 9,4 to 7 etc., also comprise each numeral 1,2,3,4,5,6,7,8,9 and 10 in this scope at last.In addition, resemble any mentioning " relevant " herein and all will be understood that all relevant with it.

It shall yet further be noted that singulative " a ", " an ", " the " in this specification sheets comprise plural indicant, unless indicate or clearly be restricted to an indicant.

Embodiments of the invention comprise system, method and the facility that extracts desalted water from seawater, salt solution and/or contaminated water.Described system, method and the facility that is used for desalted water can and require to be operated on seagoing vessel and implement according to the generally held standard of continental rise desalted water factory and system.Invention described herein is not limited to use on seagoing vessel, only is an embodiment.

According to accompanying drawing particularly Fig. 1 and Fig. 2, boats and ships 101 provided by the invention comprise: a cover water purification system 200, and this system comprises a water inlet system 201 that comprises water inlet 202 and intake pump 203; One cover comprises the counter-infiltration system 204 of high-pressure hydraulic pump 205 and reverse osmosis membrane 206; One cover comprises the concentrate exhaust system 207 of a plurality of concentrate discharge sides; One cover comprises the infiltrate delivery system 208 of transmission pump 209; Power supply 103; And control system 210.

This counter-infiltration system 204 is connected with water inlet system 201, and concentrate exhaust system 207 and infiltrate delivery system 208 are connected with counter-infiltration system 204 simultaneously.Power supply 103 is connected with water inlet system 201, counter-infiltration system 204 and infiltrate delivery system 208.Control system 210 is connected with water inlet system 201, counter-infiltration system 204, concentrate exhaust system 207, infiltrate delivery system 208 and power supply 103.

The meaning of term " connection " or " connection " is in direct, indirect or exercisable mode, by machinery, electronics or other forms contact, in conjunction with or connect.

Water inlet system 201 supplies water for high-pressure hydraulic pump 205, and high-pressure hydraulic pump 205 is carried water and passed reverse osmosis membrane 206, and produces concentrate in the high pressure side of reverse osmosis membrane 206.Concentrate is discharged into boats and ships 101 waters on every side by a plurality of concentrate discharge sides in the concentrate exhaust system 207.Low pressure side at reverse osmosis membrane 206 produces infiltrate and transfers out boats and ships 101 by infiltrate delivery system 208.

Boats and ships 101 also comprise the propelling unit 102 that a cover is connected with power supply 103.Independently power supply provides power supply to water inlet system 201, counter-infiltration system 204, infiltrate delivery system 208 and propelling unit 102 respectively.For example, intake pump 203, high-pressure hydraulic pump 205, infiltrate carry water pump 209 can be respectively to overlap independently with one that power supply is connected.Boats and ships 101 both can be self propelled ship, a mooring, drag and shoot a retrievable arrow, advance or comprehensive barge, also can be the fleets of these ships.Boats and ships 101 can be manned or unpiloted, and boats and ships 101 both can be that single hull also can be a catamaran.

In an alternative embodiment, same power supply can provide power supply to the association of two or more water inlet systems 201, counter-infiltration system 204, infiltrate delivery system 208 and propelling unit 102.For example, the power supply of high-pressure hydraulic pump 205 comes from and is subjected to the hull propelling unit, the electrical generator that drives as the leading engine of ship.In this embodiment, the gear forces of rising progressively is isolated or transmission is installed between leading engine and the electrical generator to obtain required synchronous speed.Further, another impeller disk between propelling unit and leading engine makes leading engine drive electrical generator when boats and ships halt.In addition, independently the power supply (not shown) can or provide power to both simultaneously to counter-infiltration system 204, propelling unit 102 as diesel engine, steam or gas generator turbine or their association.

Among another embodiment, water purification system 200 has the special-purpose power supply supply of a cover, and is not connected with the propelling unit of any boats and ships 101.

Among another embodiment.A plurality of concentrate discharge sides of concentrate exhaust system 207 can be used as the additional thrust facility of boats and ships 101 or independent propelling facility.Partly or entirely concentrate can be sent to propelling machine and is used to dally or is used in emergency circumstances propelling.

Among another embodiment, power source can comprise power-actuated windmill or hydraulic propeller, and it provides power supply by the generating of air-flow or current and to the operation of water purification system or ship.

Water inlet system 201 can extract the water body in waters around the boats and ships and offer counter-infiltration system 204.In one embodiment, the water inlet 202 of water inlet system 201 is included in one or more holes of hull underwater.An example of water inlet 202 is seabed cabinets.Water enters boats and ships by the water inlet 202 that includes one or more holes, and is provided for the high-pressure hydraulic pump 205 of counter-infiltration system 204 through intake pump 205.

Counter-infiltration system 204 comprises high-pressure hydraulic pump 205 and reverse osmosis membrane 206.Reverse osmosis membrane is a kind of composite structure, and its a kind of application form widely comprises that two-layer composite polymeric resin molding comes the path of joint provisions salt.In this step, the infiltration that the former water of pretreatment is forced through the infiltration of water and salt has not reciprocity semi permeable barrier.Pressurizing feedwater contains the pressure container of independent reverse-osmosis membrane element successively by a row, and is divided into two strands of processing current, infiltrate and concentrates at this.This separation betide feedwater flow from the inlet of film to outlet in.Feedwater at first enters the surface of the pipeline of the flat space and the film of flowing through, a part of water infiltrate the barrier of film.Unfiltered water flows out this system along the parallel direction in film surface.Why concentrate is named like this, is the ion of refusing to pass through because of wherein containing tunicle that concentrates.Concentrate also is used to keep the minimum intersection flow velocity by the turbulent flow of producing for salt ditch escapement by diaphragm element.Reverse osmosis membrane kind among the present invention only is confined to it to the water and/or the compatibility of the pollutants in waters on every side.

Be in operation and carry the high-pressure hydraulic pump 205 of former water to comprise to reverse osmosis membrane 206 anyly can to produce the water pump of carrying former water to pass reverse osmosis membrane 206 necessary hydraulic pressure.

In one embodiment, can contain many cover counter-infiltration systems 104 in the boats and ships 101, be also referred to as chain.These counter-infiltration systems can be installed on the deck 105 of ship.These counter-infiltration systems 104 also can be installed on the other parts of boats and ships 101.These counter-infiltration systems 104 also can be by multistage installation.For example, each counter-infiltration system that overlaps in the counter-infiltration system 104 can be installed among the discrete container more.A few cover counter-infiltration systems can overlapped placement with the utilization on the deck 105 of optimizing boats and ships 101, and reduce the time and the expense of the water purification system of building boats and ships 101.The preferably parallel installation of these counter-infiltration systems 104, but other configuration mode also can.

Infiltrate delivery system 208 can be transferred to the infiltrate that produces in the conveyer, for example barge ship or oil tanker.In one embodiment, infiltrate delivery system 208 can be transferred to the infiltrate that produces in the conveyer in the middle of boats and ships 101 and conveying boat device are being advanced.Infiltrate delivery system 208 is suitable for infiltrate is carried infiltrate by plumbing connection equally in transfer system.

Control system 210 comprises any power supply 103 operated system that can control on water inlet system 201, counter-infiltration system 204, concentrate exhaust system 207, infiltrate delivery system 208 and the boats and ships 101.Control system 210 is looked the needs of boats and ships 101 and is placed suitable position.Control system 210 further comprises any system that can control boats and ships 101 operations.In one embodiment, control system can comprise that a treater sends various operating instructions and comes operating ship 101 and water purification system 200.A kind of special control system can be used the TLX software of Auspice Corp. company, although other system can be included in design as FPGA (Field Programmable Gate Array) control (PLC) system.

Usually, treater is connected with control system 210.The treater that is fit to comprises, for example, can be used for handling input, carries out algorithm and produces the digital logical processor of output.This treater can comprise a microprocessor, an application-specific IC (ASIC) and a state machine.This treater comprises and maybe can be used for being connected with medium, and for example, computer-readable media, this medium can store instructions when being controlled by treater, impel treater to carry out described computing and additional step.

The embodiment of the medium of a computer-reader form comprises a kind of electricity, light, magnetic or other storage or transfer device that can be used as treater, as has the webserver of computer-readable instruction.Another kind of suitable medium include but are not limited to:: the treater of floppy disk, CD-ROM, disk, memory chip, ROM, RAM, ASIC, configuration, all optical medias, tape and other magnetic medium or the readable medium of other any computer processor.Simultaneously, also comprise various convertiblely and carry the medium of the computer-reader form of computer instruction, comprise router, individual or public network, or other sending set or channel.

In one embodiment, control system 210 comprises that can be used for controlling the safety system that physics inserts this control system 210.In other embodiment, control system 210 comprises that can be used for controlling the network safety system that physics inserts this control system 210.

Concentrate exhaust system 207 is configured to increase mixture content in the concentrate that is discharged in the peripheral waters.Discharge side in the concentrate exhaust system can be arranged on the waterline of boats and ships 101 or under.

With reference to accompanying drawing 3, in one embodiment, the set-up mode of concentrate discharge side is that the partial concentration liquid that discharges from discharge side can mix with boats and ships 101 water body on every side mutually by the propelling unit of boats and ships 101.

In one embodiment, contain a plurality of counter-infiltration systems, independently the concentrate exhaust system is connected with each counter-infiltration system respectively.

With reference to accompanying drawing 4, contain a plurality of reverse osmosis devices among another embodiment, the concentrate that gives off from each counter-infiltration system is concentrated in multiple pipeline, structure box frame or the pipeline that liquid exhaust system 207 is collected in one or more longitudinal registers.Along a plurality of intervals of boats and ships 101, a plurality of discharge sides 401 make the entity part discharging of concentrate along boats and ships 101 length.

With reference to accompanying drawing 5, in the embodiment of another concentrate exhaust system 207, each discharge side is used for assisting the gravity flow screen 507 of dispersing guiding hole 502 that has that mixes to combine with one.Hole with the grid that is projected into hole is suitable for helping to mix too.

Among another embodiment, the concentrate discharge side of concentrate exhaust system 207 is configured in the mode of the jet discharge mouth that is similar to the F-15 fighter jet, thus discharge side can its circumference of conversion also can conversion concentrate stream direction.

With reference to accompanying drawing 6, in one embodiment, when boats and ships 101 moorings, concentrate exhaust system 207 can comprise that parts 601 extend to the bottom from the hull of boats and ships 101, and on these parts 601 a plurality of discharge sides 602 is arranged.Based on various factors, as the depth of water, water temperature, current and the peripheral ecosystem, parts 601 can extend to the different degree of depth and to obtain concentrate and water body on every side be carried out best effect of mixing.

In one embodiment, parts 602 can mechanically put down from boats and ships 101 or withdraw, for example hydraulic press.As selection, can put down or retraction member 602 in other suitable mode, as the offshore drilling operation of routine.Among another embodiment, to such an extent as to parts 602 have enough quality and/or density can not be lowered the desirable degree of depth by means of the help of machinery.These parts 602 need mechanically be withdrawn in the middle of the boats and ships 101 usually.

With reference to accompanying drawing 7, in another embodiment, concentrate exhaust system 207 comprises parts 701, and these parts have a plurality of concentrate discharge sides 702, parts 701 float on the water surface by the stretched wire that supports floating drum or hang with floating drum, or parts 701 itself just have suspending power.

In another embodiment, thus each discharge side in the concentrate exhaust system 207 is installed in all that these discharge sides can move on the scattering device in a complete hemisphere scope.This scattering device comprises a Hooke's coupling, a swivel bearing, a universal-joint, a ball and a ball-and-socket, or other allied equipment well-known to those skilled in the art.Although these concentrate discharge sides may be swung or be subjected to displacement, concentrate also can be distributed in the surrounding sea areas equably and go.

Among another embodiment, concentrate exhaust system 207 comprises that also a water pump is to increase the hydraulic pressure by the concentrate before the discharge side discharging.

In another embodiment, boats and ships 101 also comprise heat recovery system, water inlet system 201, control system 210 and a counter-infiltration system 204 that is connected with the power supply discharging.The heat energy that this heat energy recovery system can utilize one or more power supply to produce adds over-all heat transfer counter-infiltration system film 206 before by the water of importing in the water inlet system 201.

In another embodiment, boats and ships 101 also comprise a thermal exchange system that is connected with concentrate exhaust system 207 with counter-infiltration system 204.This heat-exchange system comprises a H Exch and a cooling system.This heat-exchange system is used for the temperature of concentrate is dropped to or is approximately the temperature in boats and ships 101 peripheral waters.Be compared to into water, the temperature of concentrate is usually than higher, after between counter-infiltration system 204 and concentrate exhaust system 207 heat-exchange system being installed, the benefit of bringing is to reduce or has eliminated may be because of discharging the influence to peripheral ecology environment that the higher temperature concentrate causes.In another embodiment, heat-exchange system also is connected with other system on the boats and ships 100.

With reference to accompanying drawing 8, among another embodiment, water purification system comprises, the water inlet system 201 that contains water inlet 202 and intake pump 203, aqua storage tank 830, pretreatment system 840, the counter-infiltration system 204 that contains high-pressure hydraulic pump 205 and reverse osmosis membrane 206, concentrate exhaust system 207 contains infiltrate delivery system 208, energy recovery system 810 and the infiltrate holding tank 220 of infiltrate transmission pump 209.This energy recovery system 810 can be used for the energy with concentrate pressure correlation connection being recovered or being converted into electric energy.

Aqua storage tank 830 is connected with intake pump 203 and pretreatment system 840.Pretreatment system 840 is connected with high-pressure hydraulic pump 205 with aqua storage tank 830.Energy recovery apparatus 810 is connected with high pressure side, high-pressure hydraulic pump 205 and the concentrate exhaust system 207 of reverse osmosis membrane 206.

In one embodiment, pretreatment system 840 comprises at least one cover fragment pre-filtration system, a hydraulic accumulator and a pressure regulation groove.The fragment pre-filtration system is used to guarantee to stablize, the running of long-term counter-infiltration system and the life-span of film.This fragment pre-filtration system can comprise purification, filtration, ultrafiltration, the adjustment of pH value, removes free chloro ion, prevent that incrustation scale from growing and 5 microns cartridge type filteres.

In one embodiment, pretreatment system 840 includes a plurality of pretreatment system (not shown).Under the water source situation of warm, cleaning, a common pretreatment system just can satisfy.Yet just may need to carry out multistage pretreatment under the ice-cold former water of low temperature (and former water of the multi-pollutant) situation.Because it is customized that boats and ships 101 can be predetermined location, and have mono-pretreatment system 840, for boats and ships 101 provide a plurality of pretreatment systems boats and ships 101 moved under the various environmental conditionss widely in the whole world.A kind of like this embodiment of boats and ships 101 can strengthen government or United Nations crisis or disaster response plan alerting ability, because sufficient plan can not be predicted or carry out to place and environmental aspect that disaster takes place easily.

Energy recovery system 810 is to be used to recover or the energy of conversion and concentrate pressure correlation connection.The illustration of energy recovery system 810 comprises turbine apparatus.The energy that recovers can be used for eliminating the stroke of high-pressure hydraulic pump 205, advances in order to the inter-stage of assisting the two-stage water purification system, or is used for generating.

Among another embodiment, boats and ships 101 also comprise one or more noises and/or the vibrations abatement device that any mechanically moving equipment on the hull that is installed in boats and ships 101 and boats and ships 101 is connected.These mechanicals device include but are not limited to: propulsion source, high-pressure hydraulic pump, conveying water pump and intake pump.Noise absorber can comprise any isolation well-known to those skilled in the art, suspension or bumper.The noise abatement device can also comprise any Noise cancellation technology well-known to those skilled in the art.Thereby noise absorber can comprise that a housing contains the kluck that is sent through precision machined material or machine and can reduce when mechanical device turns round.

In another embodiment, boats and ships 101 also comprise as the noise that is sleeved on pipeline external surface and/or vibrations abatement device in order to subdue the fluid vibrations that marine piping produced of flowing through.The pipeline suit can reduce the noise that produces in ducted mobile speed because of water.The noise abatement device can reduce by the housing of boats and ships 101 and transmits and the noise or the vibrations that come, thereby reduces under water or halobiontic interference.For example, the noise abatement device can reduce the interference of getting in touch by sound between the whale.And the noise abatement device can reduce the damage of noise to crewman's hearing.

With reference to accompanying drawing 9 to 12, in another embodiment, boats and ships 101 also comprise a cover and counter-infiltration system 204 and concentrate exhaust system 207 bonded assembly mixed systems together.This mixed system can the water in waters mixes with directly being taken from every side before discharging with concentrate.This system is used for before the concentrate discharging it being watered down and/or cooling off.

With reference to accompanying drawing 9, in one embodiment, mixed system comprises the mixing tank 905 that comprises concentrate inlet 910 and outlet 915, the commingled water water inlet system 920 that comprises water inlet, pump, a series of dividing plate 925, the mixing dividing plate that comprises a plurality of holes 935, water enters into commingled water water inlet system 920 (being this water), and concentrate is forced through the mixing dividing plate and mixes before flowing into exhaust system 207.Can reach the optimum efficiency that this water is mixed with concentrate by size, shape and the quantity of selecting hole 935.Hole 935 can reduce flow through turbulent flow when mixing dividing plate 930 of fluid.Mixing dividing plate 930 extends to the other end from an end that mixes tank 905.Contiguous dividing plate is connected on the relative stile that mixes tank 905.Dividing plate is arranged in staggered mode, thereby the part of each dividing plate 925 and contiguous dividing plate 925 overlaids.The fluid path of curling up of before the grid 930 of flowing through flows into concentrate exhaust systems 207, must flowing through.

(not diagram) in another embodiment, this mixed system comprises a mixing channel that contains the concentrate entrance and exit, and one comprises water inlet, pump and any commingled water water inlet system that can form the device of abundant similar mixtures from concentrate and this water.The illustration of this device comprises high speed scull mixer and static mixer.

With concentrate with after Ben Shui mixes, water purification system 200 just can be discharged into the concentrate after watering down among the peripheral waters.For example, if the content of total insoluble substance (TDS) is 30000 mg/litre in the peripheral waters, water purification system can obtain 50% infiltrate, and the content of total insoluble substance (TDS) will be 60,000 mg/litre in the concentrate so.With after concentrate mixes, TDS content will be between 30,000 and 60,000 in the concentrate after watering down with this water.

Among another embodiment, the content that enters into the interior TDS of desalination water of mixing channel is lower than peripheral waters TDS content.The illustration of this desalination water includes but are not limited to:, the infiltrate that obtains from counter-infiltration system and from this ship or other ship rainwater of collecting.

Among another embodiment, the water inlet in the mixed system is exactly the water inlet 202 in the water inlet system 201.In another embodiment, the water inlet of mixed system is a water inlet independently.Dividing plate can be with level, horizontal or vertically arrangement.

With reference to accompanying drawing 10,11 and 12, in one embodiment, comprise handle 109 in the mixing channel 905 in the mixed system on the boats and ships 101.An embodiment as shown in figure 10, dividing plate 925 is transversely arranged.Among the embodiment as shown in figure 11, dividing plate 925 is vertical arrangement.Among the embodiment as shown in figure 12, it is horizontal that dividing plate 925 is.

Referring again to accompanying drawing 1A, in another embodiment, boats and ships 101 also comprise the infiltrate holding tank that is provided with the control punch 109 that is provided with into infiltrate, and this holding tank is connected with counter-infiltration system 204 and infiltrate delivery system 208.Among another embodiment, boats and ships 101 also comprise the packaging system 110 that is connected with the infiltrate holding tank.This packaging system 110 comprises that the lift pump that has supply line is used for extracting infiltrate out the infiltrate holding tank.Packaging system 110 can be used for that infiltrate delivery system Infrastructure is damaged or the emergency situation of cisco unity malfunction.

Among another embodiment, the water purification system 200 on the boats and ships 101 also comprises the infiltrate disposal system that is connected with the low pressure side and the infiltrate delivery system 209 of counter-infiltration system 206.In one embodiment, this infiltrate disposal system comprises the corrosion control system.Among another embodiment, this infiltrate disposal system comprises the infiltrate decontamination system.Among another embodiment, this infiltrate disposal system comprises that the infiltrate Adjustment System is used to adjust the taste characteristic of infiltrate.Among another embodiment, this infiltrate disposal system comprises corrosion control system, infiltrate decontamination system and infiltrate Adjustment System.Among another embodiment, this infiltrate disposal system can optionally be installed in the rear end of infiltrate delivery system 208.For example, below seeing in this specification sheets is described about continental rise distribution system 1330 embodiment.

In another embodiment, boats and ships 101 comprise many cover counter-infiltration systems 104, and these boats and ships 101 have the ability of producing infiltrate 5,000 to 450,000 cubic meters (about 100 ten thousand to 10,000 ten thousand gallons of infiltrates every day) every day.In another embodiment, the water production rate of boats and ships 101 is decided on the application and the size of used boats and ships.

In another embodiment, the dead-weight capacity of boats and ships 101 (dwt) is between 10,000 to 500,000.In another embodiment, the dead-weight capacity of boats and ships 101 is between 30,000 to 50,000.In another embodiment, the dead-weight capacity of boats and ships 101 is between 65,000 to 80,000.In another embodiment, the dead-weight capacity of boats and ships 101 is 120,000.In another embodiment, the dead-weight capacity of boats and ships 101 is between 250,000 to 300,000.In another embodiment, the dead-weight capacity of boats and ships 101 depends on how this ship is used, the minimum productive capacity that also can allow the boats and ships 101 that this ship can bubble through the water column and/or expect.

Except the use reverse osmosis was purified waste water, boats and ships 101 can also be equipped other can be with the technical equipment of water desalination or purification.Concentrate evaporating installation as equipping multistage flash evaporation (MSF) equipment, multi-effect distilling equipment or mechanical vapour.

With reference to accompanying drawing 23, on the other hand, the invention provides a kind of method 2301 of on water surface floating structure body, producing infiltrate, this method comprises following steps: output concentrate 2310 when producing infiltrate; Discharge concentrate 2320 by the concentrate exhaust system that comprises a plurality of discharge sides to peripheral waters.

In another embodiment of method 2301, the step of producing infiltrate comprises: with water pump counter-infiltration system is passed through in the water pressurization, this system comprises high-pressure hydraulic pump and filter element, and this filter element comprises reverse osmosis membrane, and concentrate is in the high pressure side of reverse osmosis membrane output.

In another embodiment, method 2301 comprises the steps: that also this floating structure body is at the discharging concentrate in the water surface that travels.

In another embodiment, method 2301 comprises: water to be clean is delivered in many covers counter-infiltration system of configured in parallel with the water pump pressurization.

In another embodiment, method 2301 comprises the steps: that also the floating structure body travels in water in any mode that is suitable for concentrate being distributed to peripheral waters or current after tested of sufficient cycle mode, mode of oscillation, linear fashion or other.

In another embodiment, method 2301 comprises the steps: that also the floating structure body relatively is fixed on a certain place with reference to land, and has the concentrate that is disperseed by current.

In another embodiment of method 2301, a plurality of concentrate discharge sides are arranged on the boats and ships, make the concentrate entity part be discharged by the propelling unit of this floating structure body with fully mix to peripheral waters.In another embodiment of method 2301, these concentrate discharge sides can be arranged on the waterline of floating structure body or under.In another embodiment of method 2301, the set-up mode of these concentrate discharge sides can be so that the discharging of concentrate becomes a kind of auxiliary or unique propelling unit of this hull.

In another embodiment of method 2301, this method also comprises the steps: to mix with the water of directly taking from peripheral waters before concentrate is discharged.

In another embodiment, concentrate is comprised with the step that the water of directly taking from peripheral waters mixes: by these discharge sides with before the concentrate discharging, with concentrate and the water of directly taking from peripheral waters flow through a series of dividing plates together.Dividing plate can horizontal, transversely arranged or vertical arrangement.Adjacent dividing plate is connected on the opposite face of mixing channel.These dividing plates are arranged in the mode of stagger arrangement, like this part of each dividing plate all with contiguous dividing plate overlaid.Water and the path flow of concentrate before arriving the concentrate exhaust system by circling round.

Concentrate is can quicken and the mode of the mixing in peripheral waters is discharged.

In another embodiment of method 2301, the physical location of a plurality of concentrate discharge sides with can be by the propelling unit of hull and the mode that concentrate is mixed with peripheral waters be provided with.

Also comprise in another embodiment of method 2301: a plurality of counter-infiltration systems, one overlaps independently, and the concentrate exhaust system is connected with each counter-infiltration system.

In another embodiment of the method 2301 that comprises a plurality of reverse osmosis devices, the concentrate that gives off from each counter-infiltration system is collected into take-off line, structural box beam or the pipeline of one or more longitudinal registers.Arrange at certain intervals that along the floating structure body a plurality of discharge sides make concentrate discharge on the entity part part of floating structure body length.

In another embodiment of method 2301, each concentrate discharge side is designed for to help to mix with peripheral water body and have and disperses the gravity flow screen of locating hole and combine with one.Dividing plate with outstanding hole also can be used for helping to mix.

In another embodiment of method 2301, the set-up mode of concentrate discharge side is similar to the jet spray of F-15 fighter jet, make discharge side can conversion its circumference also can conversion concentrate stream direction.

In an embodiment of method 2301, in the time of when floating structure system pool or fixedly, concentrate can or be crossed the hull limit and have a plurality of discharge sides at these parts and discharge by parts that extend to the bottom from hull.Based on various factors such as the depth of water, water temperature, current and the ecological difference of periphery, parts can extend to the different degree of depth and to obtain concentrate be carried out the effect that the best is mixed with water body on every side.In another embodiment, the parts with a plurality of concentrate discharge sides float on the water surface by the stretched wire that supports floating drum or hang with floating drum, or these parts itself just have suspending power.

Among another embodiment of method 2301, these discharge sides can move in a complete hemisphere scope on the scattering device thereby each concentrate discharge side can be installed in.This scattering device can comprise Hooke's coupling, swivel bearing, ball and ball-and-socket or other allied equipment well-known to those skilled in the art.Swing by these concentrate discharge sides or move, concentrate can be distributed in the surrounding sea areas equably and go.

In another embodiment of method 2301, concentrate can further be pressurizeed before by a plurality of concentrate discharge side dischargings.

Figure 13 is the scheme drawing of one embodiment of the invention.System 1301 shown in Figure 13 generally includes: first boats and ships 1310 and infiltrate is transported to the device of continental rise distribution system 1330 from first boats and ships 1310.Term " continental rise ", " land ", " bank base " and " on the coast " refer to be arranged at forever or fully on the bank or the system and the structure on land.The part of these systems or some form that body can be arranged in the water by offshore, in the structure of offshore, on the water surface, mooring or anchor on sea bed.

First boats and ships 1310 comprise the device that is used to produce infiltrate.In one embodiment, the infiltrate process units comprises water purification system (will specifically describe) herein.Other structure also can be used.Other device that is used for producing infiltrate can be used for other embodiment.

Usually, first boats and ships 1310 comprise the mono-hull oil tanker through repacking.Term " repacking " typically refers to through re-constructing to realize the original nondesigned function of boats and ships.Here, boats and ships 1310 initial design are used to transport oil.Equally, first boats and ships 1310 also can be by customization or custom-engineered boats and ships.

First boats and ships, 1310 offshores are fixed and are comprised the device that is used for producing from peripheral seawater infiltrate.Typically, this infiltrate comprises desalted water.As below describing in detail, these first boats and ships 1310 also comprise the device that is used for concentrate and sea water mixing.Although used term " seawater ", be appreciated that also seawater can comprise " clearly " water, as lake water or any other suitable water source as former water.Such as, former water even can comprise from being transported to the water source that carries out desalination or further handle of these first boats and ships 1310 on the bank.Thereby be cleaned renewal through water pre-processing or section processes.

At infiltrate is under the situation of desalted water, all comprises salt solution in the concentrate usually.Also may contain other impurity in the concentrate.The source of former water is depended in the existence of other impurity and total insoluble substance.As everyone knows, some water body is more serious than other water pollution, and the water body on static water body and close bank is usually than containing more pollutants and total insoluble substance in the open water body.

First boats and ships, 1310 typical cases comprise that dead-weight capacity is in about 10,000 to 500,000 tons scope.In different embodiment, the dead-weight capacity of first boats and ships 1310 approximately is respectively 40,000,80,000 or 120,000.In another embodiment, the dead-weight capacity of first boats and ships 1310 is between about 30,000 to 50,000.In another embodiment, the dead-weight capacity of first boats and ships 1310 is between about 65,000 to 80,000.In another embodiment, the dead-weight capacity of first boats and ships 1310 approximately is 120,000.In another embodiment, the dead-weight capacity of first boats and ships 1310 is greatly between 250,000 to 300,000.In another embodiment, the size of first boats and ships 1310 depends on its use purpose, controlling Design and the desired productive capacity that reaches of this first boats and ships.

The ability of infiltrate process units depends on the dead-weight capacity of these first boats and ships 1310 usually.Yet the ability of infiltrate process units is not limited to the inner space size that housing constituted by these first boats and ships 1310, and this space has constituted the oil storage capacity of these boats and ships.

In one embodiment, the part of infiltrate process units is arranged on first boats and ships, 1310 main decks.For example, the parts of infiltrate process units can be classified according to freight container (with reference to Figure 1A and 1B) and are interconnected with one another and be connected with main deck.Know that all the freight container on the box ship is exactly at several floor heights of the main deck upper edge of hull vertical stack.

(not shown) in another embodiment, propelling unit 102 comprise motor and with power supply 103 bonded assembly propelling machines, the infiltrate process units is arranged on the main deck below of first boats and ships 1310.In a further embodiment, power supply 103 also is connected with the infiltrate process units.Use motor and propelling machine to advance the benefit of first boats and ships 1310 to include but are not limited to:: can optimize the utilization of first boats and ships, 1310 main deck lower space and reduce the noise that produces by first boats and ships 1310.The infiltrate process units is arranged at first boats and ships, 1310 main deck bottoms with respect to the infiltrate process units being arranged on first boats and ships, 1310 main decks or the benefit of top includes but are not limited to:: the Hydraulic Power System of simplifying mobile fluid, reduce the quantity of water pump, reduce operating cost, reduce the dead-weight capacity of first boats and ships 1310, and under the situation of same or similar water production rate, reduce the size of first boats and ships.

The parts of infiltrate process units can be arranged increasing the production capacity of infiltrate process units with similar mode, otherwise, just will be subjected to the restriction of first boats and ships, 1310 inner structures.Such hull structure can also be by reequiping the production capacity of adjusting infiltrate according to the requirement of anticipation.Like this, the production capacity of infiltrate process units is usually between 1,000,000 gallons to 100,000,000 gallons of about every days.The device of other production infiltrate can be used among other embodiment.Equally, other suitable structure also can be used.

As mentioned above, common infiltrate process units typical case comprises counter-infiltration system.As selection, other suitable infiltrate process units also can be used.In one embodiment, the infiltrate process units can be used for the continuous production of infiltrate.Usually, when first boats and ships 1310 moved with respect to seashore 1302, first boats and ships 1310 just can suck seawater 1303 and handle by the infiltrate process units.As selection, can not suck seawater 1303 in the motion with respect to seashore 1302 at first boats and ships 1310 by using suction pump and other known devices yet.

With respect to seashore 1302 motions, first boats and ships 1310 can be under sail.The meaning of term " navigation " be first boats and ships 1310 with under the dynamic action of the power of self or another ship with respect to the motion in seabed.Yet, even first boats and ships 1310 its under sail also can be with respect to seashore 1302 motions.First boats and ships 1310 also can be with respect to seashore 1302 motions under mooring, grappling or floating situation.

As above discuss, first boats and ships 1310 comprise the device that is used for mixed concentrated liquid.In top more detailed description, mixing device can be used for watering down concentrate, and in the same as top more detailed description, the temperature that mixing device can be used for adjusting concentrate is equal to fully with the water temperature with first boats and ships, 1310 peripheries.

In one embodiment, it is basic identical that first boats and ships 1310 are discharged into the temperature water temperature peripheral with it of concentrate of its peripheral water body.In another embodiment, be discharged between the content of total insoluble substance in the content of content total insoluble substance in the concentrate that obtains by the infiltrate process units of total insoluble substance the concentrate through watering down in peripheral waters and the peripheral water body from first boats and ships 1310.Herein, " being equal to fully " also is not used in the comparison of quantitative determination, but do not have qualitative difference on to marine life or ecological influence.Thereby, in an embodiment, when when concentrate is directly discharged in the peripheral waters of hull 1310, seldom or do not have the influence of significant poor environment to take place.Structure that other is appropriate and mixing device also can be used.

Among the embodiment, the infiltrate feedway also comprises second boats and ships 1320.The dead-weight capacity of second boats and ships 1320 is between about 10,000 to 500,000 tons.In one embodiment, second boats and ships 1320 comprise the barge unit.In another embodiment, second boats and ships 1320 comprise mono-hull or two object oil tanker of repacking.

Usually, first boats and ships 1310 are used for carrying infiltrate to second boats and ships 1320, and second boats and ships 1320 are used to receive the infiltrate that comes from first boats and ships 1310.As the more detailed description of back, second boats and ships 1320 are used for infiltrate is carried to continental rise distribution system 1330.Conveyance fluid between the boats and ships that ride the sea, particularly fuel oil are well-known.Carry infiltrate between first boats and ships and second boats and ships 1310,1320, the transfer of desalted water just also is to utilize similar principle.Certainly, be compared to the fuel oil transfer between two boats and ships, the environmental consequence that produces because of destruction, fracture or the disconnection of diffuser when shifting desalted water almost can be ignored.

In one embodiment, diffuser 1315 is connected between first boats and ships and second boats and ships 1310,1320.Diffuser 1315 can be connected between the infiltrate thesaurus and the infiltrate thesaurus in second boats and ships 1320 in first boats and ships 1310.Supporting the boats and ships (not shown) transmits at the desalted water that can help under the situation of needs to be carried out between first boats and ships and second boats and ships 1310,1320.

Usually, carry and when first boats and ships and second boats and ships 1310,1320 are simultaneously all with respect to seashore 1302 motions, to carry out at the infiltrate between first boats and ships and second boats and ships 1310,1320.As selection, carry and all to carry out when mooring or grappling simultaneously at first boats and ships and second boats and ships 1310,1320 at the infiltrate between first boats and ships and second boats and ships 1310,1320.When first boats and ships 1310 can continue to carry out infiltrate production at first boats and ships 1310 when second boats and ships 1320 are carried infiltrate.

After first boats and ships and second boats and ships 1310,1320 carry infiltrates to finish, second boats and ships 1320 can be transported to infiltrate the bank base distribution system 1330 on the seashore 1302, maybe can carry infiltrate to the 3rd boats and ships that forever are parked in harbour 1331, dock (not shown), riverbank (not shown) or mooring bitt (not shown).In one embodiment, second boats and ships 1320 sail into and landing pier 1331, and infiltrate is transported to plumbing system 1332 from second boats and ships 1320 to the 3rd boats and ships that rest in harbour 1331.Plumbing system 1332 is connected on the distribution system 1330 of continental rise and to it and carries infiltrate.

Continental rise distribution system 1330 generally includes at least one aqua storage tank 1333, pumping plant 1336 and pipeline or pipe network 1335.In one embodiment, the continental rise distribution system can comprise be positioned at single tank zone or to a plurality of tanks 1333 of seashore 1302 numerous region allocation.Pipe network 1335 interconnects a plurality of tanks 1333.In addition, pipe network 1335 can be connected with indivedual pumping plant (not shown) and/or terminal user's (not shown) such as industry or resident's water supply.

In an alternate embodiments, continental rise distribution system 1330 can comprise that chemical substance interpolation station (not shown) is to regulate the multiple mass parameter of water.Chemical substance is added the mass parameter that can regulate water on demand in the station as pH value, corrosion control and fluoridize reaction.The mass parameter of the water that other is fit to also can be added the station by this chemical substance and be regulated.In one embodiment, chemical substance is added the upstream that the station is arranged on aqua storage tank 1333.In another embodiment, this chemical substance interpolation station is arranged on the downstream at chemical substance interpolation station and the upstream of pumping plant 1336.As selection, this chemical substance is added the station also can be arranged at other suitable position.

In an alternate embodiments, infiltrate can be transported to continental rise transport systems (not shown) and be delivered directly to the terminal user or the water storage facility of preparation by second boats and ships 1320.The continental rise transport systems can comprise a plurality of tank cars or Freight Transport network (not shown).The continental rise transport systems can comprise railway or railway network.In addition, the roadbed transport systems can be the association of Freight Transport network and railway network.

With reference to accompanying drawing 14, be depicted as the selectable infiltrate feedway of a cover.Among the embodiment, infiltrate can directly be carried to showy pipeline 1415 by first boats and ships 1310.It is that behaviour is known that unsteady pipeline is used to transfer oil.The pipeline 1415 that should float also can similarly be designed to this unsteady pipeline.

The pipeline 1415 that floats can combine with permanent floating drum 1404.The pipeline 1415 that floats can be transported to floating drum 1404 from seashore 1302 with tugboat or other auxiliary vessel.The pipeline 1415 that floats can be built with known buoyant material, or combines along its length direction with the floating debris (not shown).The pipeline 1415 that floats can swim on the water surface 1303.The pipeline 1415 that floats also can partly be submerged under the water surface 1303.

Another alternate embodiments about the infiltrate feedway comprises that the seabed stablizes the pipeline (not shown).This seabed is stablized pipeline and is combined with permanent floating drum 1404.This seabed is stablized pipeline and mainly is placed under the surface, seabed.This sea-bottom embedment pipeline is protected by the seabed usually.This sea-bottom embedment pipeline can be embedded in following several inches of surface, seabed.As selection, anchoring device can be used to protect the sea-bottom embedment pipeline.In another embodiment, the sea-bottom embedment pipeline can be covered by different materials.Other structure and infiltrate feedway also can be used for other fact Example.

The head end that pipeline is stablized in the seabed can be placed on the water surface 1303.The head end that pipeline is stablized in the seabed is connected with first boats and ships 1310.The end that pipeline is stablized in the seabed the most closely is placed to continental rise distribution system 1330.In one embodiment, the seabed is stablized that part that pipeline approaches head end and is passed permanent floating drum 1404.In another embodiment, that part and permanent floating drum 1404 formation integral body that pipeline approaches head end stablized in the seabed.

Another optionally embodiment about the infiltrate feedway includes the pipeline (not indicating) that a cover gos deep into the seabed.This pipeline that gos deep into the seabed combines with permanent floating drum 1404.This pipeline that gos deep into the seabed mainly is placed under the water surface 1303 and is statically placed in the seabed.This pipeline that gos deep into the seabed is fixed on a certain position in seabed usually.This pipeline that gos deep into the seabed can be buried in several inches on surface, seabed.Certainly, anchoring device also can be used for these pipelines that gos deep into the seabed.In another embodiment, the sea-bottom embedment pipeline can be covered by different materials.Other structure and infiltrate delivery system can be used for other embodiment.

In an embodiment of system 1301, first boats and ships 1310 comprise that the packaging system (not shown) is used to pack infiltrate.This packaging system can comprise a cover canned factory peculiar to vessel.As selection, this packaging system also comprises the manner of packing that other is suitable, as big plastic courage.Will describe in detail as the back, the infiltrate through packing can be transported on the bank and 1302 go to relieve the area that those suffer the disease puzzlement.The desalted water after packing is provided, first boats and ships 1310 also comprise disaster relief material memory space, as food, medicine and clothing.

For supporting the running of first boats and ships 1310, can also there be one to support fleet's (not shown).Supporting fleet is used for providing following one or more supports to first boats and ships 1310: the material and facility of fuel oil, supply and stores, maintenance and replacing, personnel and lift capacity.Supporting fleet can be single ship or many ships.

With reference to accompanying drawing 15, shown in the system 1501 is the disaster relief service that is provided by maritime environment described in the present invention.In the back more detailed description will be arranged, system 1501 is used for providing emergency assistance without that become civilized, that owe exhibition or the Insufficient zone of basis instrument widely to those.And system 1,501 1302 does not stay any " footprint " on the coast.In addition, system 1501 can move and need not wait time and waiting under the situation of notice response is made in how developing crisis.This point is carried out the particular importance that seems when deployment is go the rounds in the whole world in system 1501.

System 1501 comprises that first boats and ships 1510 are used to produce desalted water.Generally, first boats and ships 1510 speed of producing desalted waters is in every day 1,000,000 gallons to 100,000,000 gallons scope.Typically, first boats and ships 1510 include counter-infiltration system.In one embodiment, first boats and ships 1510 can be continuous carries out desalted water production.

First boats and ships 1510 can comprise through the mono-hull oil tanker of repacking and have first dead-weight capacity.The scope of first dead-weight capacity comprises greatly between 10,000 to 500,000 tons.In another embodiment, the dead-weight capacity of first boats and ships 1510 is greatly between 30,000 to 50,000.In another embodiment, the dead-weight capacity of first boats and ships 1510 is greatly between 65,000 to 80,000.In another embodiment, the dead-weight capacity of first boats and ships 1510 approximately is 120,000.In another embodiment, the dead-weight capacity of first boats and ships 1510 is greatly between 250,000 to 300,000.In another embodiment, the size of first boats and ships 1510 depends on its use purpose, controlling Design and the required productive capacity that reaches of this first boats and ships.

First boats and ships 1510 can be done lasting moving with respect to seashore 1502.Usually, when first boats and ships 1510 moved with respect to seashore 1502, first boats and ships 1510 just can be drawn into seawater 1503 and handle by counter-infiltration system.As selection, use suction pump and other known devices and also can not suck seawater in the motion with respect to seashore 1502 at first boats and ships 1510.

For moving with respect to seashore 1502, first boats and ships 1510 can be under sail.Yet, even first boats and ships 1510 under sail can be with respect to seashore 1502 motions yet.First boats and ships 1510 can be done mobile with respect to seashore 1502 under mooring, grappling or floating situation.

In an embodiment of system 1501, first boats and ships 1510 comprise that the packaging system (not shown) is used to pack desalted water.This packaging system can comprise tanning device peculiar to vessel.As selection, this packaging system also comprises the packing that other is suitable, as big plastic courage.Infiltrate through packing can be transported to seashore 1502 and go to relieve the area that those suffer the disease puzzlement.Except the desalted water after the packing is provided, first boats and ships 1510 also include a disaster relief material memory space, as food, medicine and clothing.

System 1501 also comprises device from desalted water to seashore 1502 that carry.In one embodiment, this feedway comprises second hull 1520.The dead-weight capacity of this second hull is between 10,000 to 500,000 tons scope.Second boats and ships 1520 can comprise the mono-hull oil tanker through repacking.Second hull also can comprise the barge unit.As selection, other boats and ships that are fit to also can be used.

Second hull 1520 is used to receive the desalted water that comes from first boats and ships 1510 and desalted water is transported to seashore 1502.As top detailed description, first boats and ships 1510 are carried desalted water by delivery duct 1515 to second boats and ships 1520.Thereby no longer repeat this course of conveying herein.When first boats and ships and second boats and ships 1510,13520 all moved with respect to seashore 1502 simultaneously, second boats and ships 1520 still can receive the desalted water from first boats and ships 1510.

In an alternate embodiments, the former water of undressed or section processes can be from seashore 1502, for example is transported to by second boats and ships 1520 that first boats and ships 1510 are handled or extra processing (promptly upgrading former water).Water can be transported to first boats and ships 1510 from second boats and ships 1520 by reversal procedure by the way.In case first boats and ships 1510 have carried out handling or " renewal " to these water from seashore, first boats and ships 1510 water after with these desalinations or " renewal " is sent to second boats and ships 1520 and is transported to seashore 1502.

In case the desalted water of expection total amount has been transported to second boats and ships, 1520, the second boats and ships from first boats and ships 1510 and just these desalted waters can be transported to immediate seashore 1502.Typically, second boats and ships 1520 are with landing pier 1530.As selection, second boats and ships 1520 can be one two purpose vehicles, and in this case, second boats and ships 1520 just can directly be transported to seashore 1502 with desalted water.In another alternate embodiments, first boats and ships 1510 or second boats and ships 1520 can or be thrown into outboard with it and utilize the effect of morning and evening tides that these desalted waters through packing are transported to seashore 1502 by the landing pier unloading.

Among the alternative embodiment, mode of movement can comprise that air-drop transports system's (not shown).This aerial transport system provides than the farther and more fast help of conventional land transport mode for overland transportation when needed.And some zone of seashore 1502 can only arrive in the mode of air transport.

In one embodiment, this air transport system comprises the helicopter (not shown).This helicopter can land or spiral above first boats and ships 1510 or second boats and ships 1520.This helicopter can be filled through the water of packing or transport the tray of packing water.In another embodiment, this air transport system comprises hydroairplane.This hydroairplane can directly be filled through the water of packing and with the place that they are transported to landlocked any needs and go.Other structure and method of shipment also can be applicable to other embodiment.

System 1501 is except transporting the disaster relief service that other can also be provided desalted water.As top discussion, system 1501 can also provide food (for example, fast food-MRES), medicine supply and clothing.As top discussion, system 1501 comprises that also supporting fleet's (not shown) is used for providing following one or more supports to first boats and ships 1510: fuel oil, supply and stores, maintenance and more conversion materials, personnel and lift capacity.Support fleet and can comprise single ship or many ships.And, except supporting first boats and ships 1510, support fleet and in case of emergency can also and provide other urgent help to seashore 1502 dispatch personnel.

With reference to accompanying drawing 16, shown is is used to alleviate water purification system on the boats and ships 1610 system 1601 to the influence of environment under marine environment.The water purification system (not shown) produces infiltrate and concentrate.This water purification system and system class recited above are seemingly.As selection, other suitable water purification system also can be employed.Typically, the infiltrate of output comprises desalted water, and the concentrate of output comprises salt solution.

In one embodiment, system 1601 comprises that also a cover is used to control the mixed system from boats and ships 1610 total insoluble substance content in the concentrate of peripheral waters discharging.As described above in detail, this mixed system is used to water down concentrate and/or adjusts the temperature of the concentrate that is given off by boats and ships 1610.

In one embodiment, system 1601 comprises the device that is used to discharge concentrate.Usually, the concentrate tapping equipment can be used for concentrate was mixed with former water before being discharged into peripheral waters.In another embodiment, this concentrate tapping equipment water of being used for concentrate and the total insoluble substance that contains are lower than the water body total insoluble substance content before the concentrate discharging mixes.This concentrate tapping equipment can be with recited above similar with sampling device.

In one embodiment, this concentrate tapping equipment comprises gravity flow screen or other diverting device.For example, this gravity flow screen can comprise a plurality of holes of dispersing.In another illustration, this gravity flow screen also is provided with a plurality of protrusions on its space.The structure of gravity flow screen is as described above and can be with reference to accompanying drawing 5A and 5B.As selection, gravity flow screen also has other selectable make.

In another embodiment, this concentrate diverting device comprises one by the outward extending dispersal unit of hull, also is provided with many holes on this dispersal unit.This dispersal unit comprises a plurality of dispersion pipes, and each pipe extends with the different degree of depth.This dispersal unit also comprises the flotation hose that is stretched out by main ship deck in water.This dispersal unit also comprises a catenary.Other alternative dispersing mode also can be as described above.Structure that other is suitable and diverting device also can be applied.

In one embodiment, system 1601 comprises the device that is used to reduce deck of boat noise.For example, comprise the noise absorber of a plurality of pipe boxes, in another example, noise absorber comprises a plurality of vibrations elements that weaken.Other can reduce under marine environment, and desalination system also can be similar with above-mentioned system, facility and method to the system of ambient environment influence on the boats and ships.As selection, structure, system and the mode that also can use other to be fit to.

With reference to accompanying drawing 17, shown is that a cover provides the also system 1701 of conveying capacity for the continental rise distribution system.System 1701 comprises boats and ships 1710.These boats and ships 1710 comprise and are used for energy-producing device 1703.System 1701 comprises that also continental rise device 1720 is used for the energy from boats and ships 1710 is sent to continental rise distribution system 1740.In one embodiment, the production capacity of energy producing unit 1703 in about 10 megawatts between the 100 megawatt scopes.

Among the embodiment, the dead-weight capacity of boats and ships 1710 is between about 10,000 to 500,000.As mentioned above, boats and ships 1710 can be the mono-hull oil tankers through repacking.Also can use other boats and ships, as barge, other merchant ship and retired warship through repacking.As selection, boats and ships 1710 also can be customized by the client, promptly is used for the design and the construction of special purpose.

In one embodiment, energy production device 1703 comprises supply transformer (not shown), motor (not shown), frequency converter (not shown) and motor controller (not shown).Frequency converter is used to control rotating speed of motor and moment of torsion.The energy production device preferably includes power driver well known in the prior art as advancing actuator.Usually, voltage transformer is connected with frequency converter with motor.Typically, electric machine controller is connected with voltage transformer, motor, frequency converter.Motor can be drive motor or dynamotor.

Typically, energy production device 1703 is arranged on the bottom of main deck fully.In an alternative embodiment, this energy production device 1703 both can be set on the main deck, also can be set at the bottom of main deck.And this energy production device 1703 can be replenished by interim electrical generator (not shown), as diesel-engine generator.

Motor is alternating current dynamo preferably.Rotating speed of motor can be regulated by the voltage and the frequency that change input.Frequency converter is used to the frequency output that provides variable.This frequency converter can also provide the electrodeless control of three plase alternating current of the output frequency from zero to maximum range, and with the response expectation is front axle or the rear axle speed that boats and ships provide.In another embodiment, the energy production device comprises the fuel cell (not shown).As selection, also can use other suitable energy production device, as, conventional marine diesel engine or nuclear energy or fossil fuel steam engine.

Energy conversion device 1720 comprises and will be transported to the synchronous device 1725 of the energy of continental rise distribution system 1740 from boats and ships 1710.As mentioned above, energy conversion device 1720 is continental rise or bank based system.Use continental rise energy conversion device 1720 but not the boat-carrying energy conversion device is for allowing boats and ships 1710 limited spaces maximizations be used to generate electricity and finishing other function.In addition, continental rise energy conversion device 1720 is connected by local energy authorities' configuration and with continental rise distribution system 1740.Thereby boats and ships 1710 just needn't improve for adapting to various power transmission network case system.

In one embodiment, synchronous device 1725 comprises the electrical generator step-up transformer (not shown) and the second conv (not shown).This electrical generator step-up transformer is used for the voltage of the voltage steps of boats and ships 1710 and continental rise distribution system 1740 is equal to fully.Can be as, electrical generator step-up transformer with the voltage steps to 600 of boats and ships 1710 volt to 38 kilovolts, just identical voltage with continental rise distribution system 1740.In another embodiment, the electrical generator step-up transformer can be with the voltage steps of boats and ships 1710 to 600 volts of the voltages of continental rise distribution system 1740 to 38 kilovolts.

Second conv is used for the electric energy of boats and ships 1710 and continental rise distribution system 1740 are carried out synchronously.As, second conv can be converted into the direct supply on the boats and ships 1710 source of AC of continental rise distribution system 1740.For another example, second conv can become the phase transformation of power supply on the boats and ships 1710 phase of continental rise distribution system 1740 power supplys.

Continental rise distribution system 1740 can also comprise transmission of electricity grid or network and provide and transmission of electric energy to terminal clients such as commercial, industry and/or residents.Such continental rise distribution system 1740 generally includes but is not limited to: send tower, overhead or ground cable line, power transformation substation, voltage transformer, conv and electric wire, as house lead in.As selection, also can use the continental rise distribution system that other is fit to.

In one embodiment, boats and ships 1710 also contain blowdown clean-up device 1707.Typically, blowdown is meant pollutant substance and various particulate matter.Blowdown clean-up device 1707 are arranged on the upstream or the front portion of boats and ships 1710 exhausr ports.The blowdown of boats and ships normally produces when generating.Certainly, assist deck of boat function also may produce other blowdown.In one embodiment, blowdown clean-up device 1707 comprise scourer.In another embodiment, blowdown clean-up device 1707 comprise particulate filter.

With reference to accompanying drawing 18, shown is system 1801.System 1801 comprises the boats and ships 1810 that are used to produce desalted water and generating.System 1801 also comprises desalted water from the device (not shown) of boats and ships 1810 onshores base water diversion system 1830 conveyings and the device 1820 that electric power is carried from boats and ships 1810 onshores base electric power distribution system 1840.

In one embodiment, the dead-weight capacity of boats and ships 1810 is between about 10,000 to 500,000.As mentioned above, boats and ships 1810 can be the mono-hull oil tankers after repacking.Ship that other is fit to such as tugboat or other merchant ship also can be reequiped.As selection, boats and ships 1810 can be looked special purposes and be customized by the client.

Generally, the ability of boats and ships 1810 production desalted waters is approximately 1,000,000 gallons to 100,000,000 gallons scope every day.Typically, boats and ships 1810 carry out the production of desalted water by mode recited above, no longer repeat herein.As selection, also can use other suitable mode and carry out the production of desalted water.Usually, the generating capacity of boats and ships 1810 in about 10 megawatts between the 100 megawatt scopes.

Boats and ships 1810 generally are the production of carrying out desalted water under offshore 1803 states.Productive capacity---or after producing the desalted water of the requirement---boats and ships 1810 that reach its desalted water when boats and ships 1810 drive towards bank 1802 and safely mooring in nearest harbour 1831.These desalted waters are carried or unloaded to onshore base distribution system needs about 12 hours, certainly, also depends on the water yield that transfers out from boats and ships 1810.

In one embodiment, carry the device of desalted water to comprise plumbing system 1832 from boats and ships 1810 onshores base distribution system 1830.As selection, also can use other suitable embodiment.Plumbing system 1832 is connected with bank base water diversion system 1830.

Bank base water diversion system 1830 generally includes: at least one aqua storage tank 1833, pumping plant 1836, pipeline or pipe network 1835.In one embodiment, the continental rise distribution system can comprise be positioned at single tank zone or to a plurality of tanks 1833 of seashore 1802 numerous region allocation.Pipe network 1835 interconnects a plurality of tanks 1833.As selection, pipe network 1835 can be connected with indivedual pumping plant (not shown) and/or terminal user's (not shown) such as industry or resident's water supply.

In one embodiment, continental rise distribution system 1830 can comprise the mass parameter that chemical substance interpolation station (not shown) is used to regulate a plurality of water.Chemical substance is added the mass parameter that can regulate water on demand in the station as pH value, corrosion control and fluoridize reaction.The mass parameter of the water that other is suitable also can be added the station by this chemical substance and be regulated.In one embodiment, chemical substance is added the upstream that the station is arranged on aqua storage tank 1833.In another embodiment, chemical substance interpolation station is arranged on the downstream at chemical substance interpolation station and the upstream of pumping plant 1836.As selection, this chemical substance is added the station also can be arranged at other suitable position.

In an alternate embodiments, desalted water can be transported to continental rise transport systems (not shown) and be delivered directly to the terminal user or the water storage facility of preparation by boats and ships 1810.The continental rise transport systems can comprise many tank cars or Freight Transport network (not shown) composition.The continental rise transport systems can comprise railway or railway network.In addition, the roadbed transport systems can comprise the association of Freight Transport network and railway network.

When continental rise water distribution system 1830 is carried desalted waters, also generate electricity and be transported to bank base electric power distribution system 1840 at boats and ships 1810.Generally, a megawatt electric power has just enough been supplied the power consumption of the common American family in 1000 families.Like this, if the generating capacity of boats and ships 1810 is 100 megawatts, this ship just can provide electric power to 100,000 family families.Except producing desalted water, boats and ships 1810 can also provide emergency power supply service to hospital, other Infrastructure and family in emergency circumstances in the zone that suffers a calamity.

In one embodiment, boats and ships 1810 also comprise a supply transformer (not shown), motor (not shown), frequency converter (not shown) and electric machine controller (not shown).Frequency converter is used to control rotating speed of motor and moment of torsion.

Preferably, this supply transformer, motor, frequency converter and electric machine controller constitute a power generation assembly 1803.Usually, voltage transformer is connected with frequency converter with motor, and electric machine controller is connected with voltage transformer, motor and frequency converter.

Typically, power generation assembly 1803 is arranged on the bottom of main deck fully.In another alternative embodiment, power generation assembly 1803 be arranged on the main deck or main deck top and main deck under.And power generation assembly 1803 can also be by interim generator supplements (not shown), as diesel-engine generator.

Motor is alternating current dynamo preferably.Rotating speed of motor can be regulated by the voltage and the frequency that change input.Frequency converter is used to the frequency output that provides variable.This frequency converter can also provide the electrodeless control of three plase alternating current from zero to the output frequency of maximum range, and with the response expectation is front axle or the rear axle speed that boats and ships provide.In another embodiment, energy production device 1803 comprises the fuel cell (not shown).As selection, also can use other suitable energy production device, as, conventional marine diesel engine.

Energy conversion device 1820 comprises and will be transported to the synchronous device of the energy of continental rise distribution system 1840 from boats and ships 1810.As mentioned above, energy conversion device 1820 is continental rise or bank based system.

In one embodiment, synchronous device 1825 comprises the electrical generator step-up transformer (not shown) and the second conv (not shown).The electrical generator step-up transformer is used for the voltage of the voltage steps of hull 1810 and continental rise distribution system 1840 is equal to fully.Can be as, electrical generator step-up transformer with the voltage steps to 600 of boats and ships 1810 volt to 38 kilovolts, just identical voltage with continental rise distribution system 1740.In another embodiment, the electrical generator step-up transformer can be with the voltage steps to 600 of hull 1810 volt to 69 kilovolts, just identical with continental rise distribution system 1740 voltage.

Second conv is used for the electric energy of boats and ships 1810 and continental rise distribution system 1840 are carried out synchronously.As, second conv can be converted into the direct supply on the boats and ships 1810 source of AC of continental rise distribution system 1840.For another example, second conv can become the phase transformation of power supply on the boats and ships 1810 phase of continental rise distribution system 1840 power supplys.

In one embodiment, boats and ships 1810 comprise blowdown clean-up device 1807.Typically, blowdown is meant pollutant substance and various particulate matter.Blowdown clean-up device 1807 are arranged on the upstream or the front portion of boats and ships 1810 exhausr ports.Certainly, assist deck of boat function also may produce other blowdown.In one embodiment, blowdown clean-up device 1807 comprise scourer.In another embodiment, blowdown clean-up device 1807 comprise particulate filter.

With reference to accompanying drawing 19A and 19B, shown in be boats and ships 1901.These boats and ships 1901 comprise hull 1902, and hull 1902 comprises first surface 1902a and second surface 1902b.Usually, the first surface 1902a of hull 1902 comprises the inside face of boats and ships 1901, and the second surface 1902b of hull 1902 is outside faces of boats and ships 1901.Boats and ships 1901 also comprise desalted water process units (not shown) and the device (not shown) that concentrate is mixed with seawater.This mixing device and desalted water process units comprise desalted water production method recited above and structure.Shown in accompanying drawing 19A, this desalted water process units comprise many covers be placed on above the main deck 1905 of boats and ships 1901 or the top be contained in counter-infiltration system 1904 in each container respectively.As selection, also can adopt other device that is fit to be used to produce desalted water.

Boats and ships 1901 also comprise the device that is used to store desalted water.This memory storage comprises a tank 1903 that is arranged in the hull 1902.Tank 1903 has occupied the shell 1902 formed most of spaces under boats and ships 1901 main decks 1905.As selection, tank 1903 also can be taked other appropriate structure and be positioned over its suitable position.Tank 1903 comprises first surface 1903a and second surface 1903b.In a preferred embodiment, tank 1903 is set within the catamaran hull of boats and ships 1901.In another embodiment, this tank 1903 has formed the catamaran hull of boats and ships 1901.Catamaran hull typically refers to, and second hull is set within the hull 1902.

When tank 1903 splendid attire desalted waters, its first surface 1903a and desalted water are close.As selection, the first surface 1903a of tank 1903 can contact with the water surface.

Usually, the second surface 1903b of tank 1903 is provided with in the face of the second surface 1902b of shell 1902 usually.The second surface 1903b of tank 1903 and the first surface 1902a of shell 1902 branch have a segment distance.Typically, the distance between the first surface 1902a of the second surface 1903b of tank 1903 and shell 1902 is more than or equal to two meters.Among another embodiment, the distance between the second surface 1903b of tank 1903 and the first surface 1902a of shell 1902 is less than two meters.As selection, other suitable distance also can.

Among the embodiment, boats and ships 1901 comprise that the temperature (not shown) that keeps desalted water in the tank 1903 is at device above freezing.Desalted water freezes in the time of about 0 degree centigrade.In one embodiment, the insulator between the first surface 1902a of second surface 1903b that keeps the device of desalted water temperature to contain being filled in tank 1903 and shell 1902.Insulator can be respectively or is connected simultaneously on the first surface 1902a of the second surface 1903b of tank 1903 and shell 1902.

In another embodiment, the temperature holding device also includes the forced convection between the first surface 1902a of the second surface 1903b of tank 1903 and shell 1902 or the air of circulative convection.The temperature of air is enough kept the temperature of the desalted water in the tank on freezing point.Air can heat by conductive plate or other proper device.In a further embodiment, the temperature holding device can also pass through heating arrangement, as heating plate, directly tank 1903 is heated.The temperature holding device can also be by making the desalted water in the tank 1903 be moved or replace such as the mode of stirring.Also can adopt other suitable temperature that can keep desalted water in the tank 1903 (not indicating) at device above freezing.

Tank includes following at least a kind of: cement concrete, plastics, thermoplastic base resin, thermosetting resin, poly-vinyl resin, polytetrafluoroethylene, carbon steel and corrosion-resistant steel.Corrosion-resistant steel can be a kind of in 304 grade stainless steels and 316 grade stainless steels.

Contain among the embodiment of carbon steel at tank 1903, on the first surface 1903a of tank 1903 one deck overplate is arranged.Usually on this layer cover just covers when making tank 1903.As selection, overplate covers after also can forming at the first surface 1903a of tank 1903 again.Typically, overplate comprises corrosion-resistant steel, comprises 304 grade stainless steels and 316 grade stainless steels.In one embodiment, be attached with sacrificial anode on the second surface 1903b of tank 1903.What adopted in another embodiment, is impressed current.

Can apply coating on the 1903b and be suitable for people's use at the first surface and the second surface 1903a of tank 1903 to help keeping desalted water.Various national standard have been specified the special coating that is used for this tank, as ANSI/AWWA D102-97.The first surface 1903a of tank 1903 comprises the coating (not shown), and this coating comprises ground floor, the second layer and the 3rd layer.In one embodiment, the ground floor that puts on first surface 1903a is a priming coat.After ground floor healing or mummification, apply second coating again.The 3rd coating is putting on second coating after ground floor healing or mummification again.Thereby second coating occupy between first coating and second coating.

First coating on the first surface 1903a is a kind of in the priming paint that adopts of bi-component epoxide-resin, zinc rich primer, vinyl coating, fast dried coking coal oil enamel paint and shop.Second coating on the first surface 1903a is a kind of in bi-component epoxide-resin, vinyl coating, the cold mould coking coal oil paint.The 3rd coating on the first surface 1903a is a kind of in bi-component epoxide-resin, vinyl coating, cold mould coking coal oil paint, the pattern of fever coking coal oil paint.As selection, other suitable compounds also can be used for first, second and the 3rd coating of first surface 1903a.

The second surface 1903b of tank 1903 comprises the coating (not shown), and this coating comprises ground floor, the second layer and the 3rd layer.In one embodiment, the ground floor that puts on second surface 1903b is a priming coat.After ground floor healing or mummification, apply second coating again.The 3rd coating puts on second coating after ground floor healing or mummification again.Thereby second coating occupy between first coating and second coating.

First coating on the second surface 1903b is a kind of in the alkide resin priming paint that contains anticorrosive pigment, vinyl coating, bi-component epoxide-resin, the zinc rich primer.This alkide resin priming paint that contains anticorrosive pigment comprises red ferriferous oxide, zinc oxide, oils and alkide resin priming paint.Second coating on the second surface 1903b is a kind of in aluminized coating, alkide resin priming paint, vinyl coating and the bi-component epoxide-resin that mixes.The 3rd coating on the second surface 1903b is a kind of in aluminized coating, alkide resin priming paint, vinyl coating and the bi-component aliphatic polyurethane coating that mixes.As selection, other suitable compounds also can be used for first, second and the 3rd coating of second surface 1903b.

Shown in accompanying drawing 17A one 17C embodiment of the method for the invention 1701.This method 1701 can be used for carrying desalted water to the continental rise distribution system, as the system 1330 in the accompanying drawing 13 as mentioned above.Can be with reference to the accompanying drawings help embodiment in the understanding method 1701 shown in 13 and describing clauses and subclauses that Figure 17 A-17B mentions.Certainly, the embodiment of the method for the invention can be widely used in various other systems.

With reference to accompanying drawing 20A, shown in the section 2010 is first boats and ships.These first boats and ships are to recited above similar.Among the embodiment, first boats and ships 1710 can be through the repacking the mono-hull oil tanker and its dead-weight capacity scope greatly between 10,000 to 500,000 tons.In another embodiment, the dead-weight capacity of first boats and ships 1510 is greatly between 30,000 to 50,000.In another embodiment, the dead-weight capacity of first boats and ships 1710 is greatly between 65,000 to 80,000.In another embodiment, the dead-weight capacity of first boats and ships 1710 approximately is between 120,000.Among another embodiment, the dead-weight capacity of first boats and ships 1710 is greatly between 250,000 to 300,000.In other embodiment, the size of first boats and ships depends on its use purpose, can make the maximization scheme and the required productive capacity that reaches of this first boats and ships of ship floatation.As selection, also can use other suitable boats and ships.

First boats and ships are used to carry out the production of infiltrate and are used for mixed concentrated liquid.As described here, infiltrate be by former water particularly seawater make.Infiltrate generally includes desalted water, and concentrate generally includes salt solution.In one embodiment, method 2001 comprises counter-infiltration system.Typically, the infiltrate throughput rate of first boats and ships is greatly in every day 1,000,000 gallons to 100,000,000 gallons scope.In another embodiment, first boats and ships can be done lasting moving with respect to seashore.In another embodiment, first boats and ships are fixed with respect to seashore.As specific descriptions herein, an embodiment of method 2001 comprises that the salt content that the content with salinity in the concentrate is diluted to first boats and ships periphery waters roughly is equal to.

Referring again to accompanying drawing 20A, be that infiltrate is carried to the continental rise distribution system from first boats and ships shown in the section 2020.With reference to accompanying drawing 20B, that shown is the embodiment that infiltrate is carried to the continental rise distribution system from first boats and ships.The step that infiltrate is carried to the continental rise distribution system from first boats and ships shown in the section 2020 also comprises infiltrate is transported to second boats and ships by first boats and ships.

In another embodiment, method 2001 also comprises the packing to infiltrate.The packing of infiltrate can be described with reference to top accompanying drawing 13.As selection, the method for the packing infiltrate that other is suitable also can adopt.In case infiltrate is packaged good, just can adopt several different methods to transport to seashore, comprise the mode of air transport.Autogyro and hydroairplane all can be used for transporting packing water to seashore.First boats and ships can comprise by a helicopter platform to be provided unloading, land and takes off for helicopter.

In one embodiment.The dead-weight capacity of second boats and ships is approximately between 10,000 to 500,000 scopes.In one embodiment, second boats and ships are the mono-hull oil tankers of into reequiping.In another embodiment, second boats and ships are barge unit.With infiltrate from first boats and ships to the process that second boats and ships are carried, first boats and ships and second boats and ships can be done the motion with respect to seashore.As selection, first and second boats and ships also can be completely fixed with respect to seashore.As mentioned above, infiltrate can be carried to second boats and ships by first boats and ships by transfer line.It is known transmitting oil plant by pipeline between ship, and identical principle is also adopted in the conveying of the infiltrate between the boats and ships.

With reference to accompanying drawing 20B, shown in the section 2024 is the step that infiltrate is carried to the continental rise distribution system from first boats and ships, comprises infiltrate is carried to second boats and ships that rest in continental rise distribution system next door.Second boats and ships can drive to harbour with the power of himself, or arrive at harbour under tugboat or other suitable support.

With reference to accompanying drawing 20B, shown in the section 2026 is the step that infiltrate is carried to the continental rise distribution system from first boats and ships, comprises infiltrate is carried to second boats and ships that rest in continental rise distribution system next door.Reach as mentioned above with reference to accompanying drawing 13, infiltrate can be carried to the continental rise distribution system by second boats and ships.

Usually, when the continental rise distribution system is carried infiltrate, be to realize by second boats and ships by a diffuser that is connected on the aqua storage tank intake pump.The aqua storage tank intake pump is in order to help carrying infiltrate to aqua storage tank.As selection, also can adopt other suitable mode that infiltrate is carried to the continental rise distribution system from second hull.

With reference to accompanying drawing 20C, that shown is the alternative embodiment that infiltrate is carried to the continental rise distribution system from first boats and ships.Shown in section 2027, infiltrate is transported in the pipeline by first boats and ships.Infiltrate is transported to the mode of pipeline to recited above similar by first boats and ships, and can be with reference to accompanying drawing 13.

For example, in one embodiment, pipeline comprises that also a unsteady pipeline crosses over from first boats and ships or permanent floating drum to this segment distance of seashore.In another embodiment, pipeline can comprise one and stablizes pipeline to top described similar seabed.In another embodiment, with reference to accompanying drawing 13, pipeline can comprise one to the top described similar pipeline of imbedding the seabed.As selection, also can adopt the configuration of other suitable pipeline and pipeline.

Shown in section 2028, the infiltrate in the pipeline is transported to immediate bank base distribution system.With reference to accompanying drawing 13, the mode of movement of infiltrate is to recited above similar.As selection, also can adopt other suitable method to carry infiltrate.Usually, on first boats and ships or permanent floating drum, be connected with transmission pump, provide essential power for infiltrate being transported to seashore.

In one embodiment, also comprise an aqua storage tank in the method 2001.Usually, aqua storage tank is arranged on and is used to further conveying and/or use on the bank and stores infiltrate.In one embodiment, may use a plurality of aqua storage tanks.In another embodiment, method 501 also comprises pipeline or pipe network is connected to aqua storage tank.In another embodiment, method 1701 also is included on pipeline or the pipe network and connects pumping plant.Typically, the association of aqua storage tank, pipeline or pipe network are connected with aqua storage tank, and the pumping plant that is connected with pipeline or pipe network has constituted the continental rise distribution system.With reference to accompanying drawing 13, the continental rise distribution system is with recited above close.As selection, structure and the arrangement that also can use other to be fit to.

In one embodiment, method 2001 comprises that also a chemical substance that is connected to aqua storage tank adds the station, this chemical substance add mass parameter that station is used to regulate a plurality of water as: pH value, corrosion control and fluoridize react.Water is delivered directly to the end user by aqua storage tank and pipe network, as industry or resident.As selection, water also can be by the transportation of continental rise transport systems.In one embodiment, the continental rise transport systems comprises railway and railway network.In another embodiment, the continental rise transport systems comprises tank car and truck transport network.

Shown in the accompanying drawing 21 is an embodiment of the method for the invention 2101.Method 2101 is used for offering help to the zone of the invasion and attack that suffer a calamity.As shown in accompanying drawing 14 and the clauses and subclauses of in describing Figure 21, mentioning can be used for the embodiment of reference Help understanding method 2101.Certainly, the embodiment of this method also can be widely used in other system among the present invention.

Shown in section 2110, method 2101 comprises first boats and ships with first tonnage.In one embodiment, first boats and ships comprise that first tonnage of first boats and ships is greatly between 10,000 to 500,000 through the mono-hull oil tanker of repacking.In another embodiment, the dead-weight capacity of first boats and ships is greatly between 30,000 to 50,000.In another embodiment, the dead-weight capacity of first boats and ships is greatly between 65,000 to 80,000.In another embodiment, the dead-weight capacity of first boats and ships is approximately 120,000.In another embodiment, the dead-weight capacity of first boats and ships is greatly between 250,000 to 300,000.In another embodiment, the dead-weight capacity of first boats and ships depends on how this ship is used, and minimum also can allow this ship bubble through the water column, and can satisfy default quantum of output.As selection, also can use other suitable ship, comprise with akin shown in the accompanying drawing 13～16.

First boats and ships are used to produce desalted water.Usually, first boats and ships comprise counter-infiltration system and this system the desalted water throughput rate greatly in every day 1,000,000 gallons to 100,000,000 gallons scope.In one embodiment, first boats and ships can be done lasting moving with respect to seashore.As selection, first boats and ships also can be fixed with respect to seashore.Desalted water can adopt with above-mentioned similar methods and facility and produce.The method of the production desalted water that other is suitable also can adopt.

In another embodiment, method 2101 also comprises desalted water is packed.As, first boats and ships can comprise a packing shop.Usually, store disaster relief provisioning product such as food, medicine and clothing in the method 2101 in addition.

Shown in section 2120, when offer help in the zone of the invasion and attack that suffer a calamity, also comprise in the method 2101 and carry desalted water to seashore.In one embodiment, comprising one second boats and ships in the method 2101 is used for receiving desalted water and being transported to seashore from first boats and ships.Second boats and ships comprise second tonnage, and typically, second tonnage is less than first tonnage, and the scope of second tonnage is greatly between 10,000 to 500,000 dead-weight capacityes.Other and above-mentioned akin suitable ship are also applicable.

In one embodiment, even second boats and ships also can receive desalted water from first boats and ships when first boats and ships move with respect to seashore.As selection, when first and second boats and ships were static substantially with respect to seashore, second boats and ships can receive desalted water from receiving from first boats and ships.Carry the mode of desalted water to recited above similar from first boats and ships to second boats and ships.As selection, other suitable mode that transmits desalted water between first and second boats and ships also can adopt.Received the desalted water of requirement at second boats and ships after, just these desalted waters are transported to immediate seashore and are distributed to the zone that suffers a calamity and attack.

The zone of invasion and attack usually lacks or bank base distribution system has been arranged owing to suffer a calamity, and the air-drop instrument that provides is provided in the desalted water method 2120 alternative transporting.The zone arrival of often can only flying of invasion and attack suffers a calamity.In one embodiment, the air-drop instrument comprises autogyro.In another embodiment, the air-drop instrument comprises hydroairplane.The air-drop instrument is desalted water and the disaster relief stores that is used for transport package.Other alternative method of transporting desalted water comprises that simple desalted water with packing throws outboard.Packing water can float to the bank or be salvaged by other ship.

Using under the situation of autogyro autogyro can be used for transporting bulk packages water or packing smuggled goods dish.In one embodiment, first boats and ships comprise that helicopter platform is to admit helicopter and to be that the operation of helicopter is provided convenience.Generally use a plurality of air-drop instruments.Air-drop instrument source is to seashore or other boats and ships.

Also comprise in the method 2101 many support ships are provided.Support ship in order to one or more following supports to be provided to first boats and ships: the material of fuel oil, complementary goods and supplies, maintenance and replacing and equipment, personnel and lift capacity.

Shown in the accompanying drawing 22 embodiment in the method 2201 of the present invention.Method 2201 is used to alleviate the influence of desalted water to environment.As shown in accompanying drawing 16 and the clauses and subclauses of in describing accompanying drawing 22, mentioning help to help understanding method 1901 described embodiment.Certainly, the embodiment of the method for the invention also can be widely used in other system.

Produce infiltrate and concentrate in the seawater desalination process.Method 2201 shown in the section 2210 comprises dilutes concentrate.In the concentrate after watering down in the content of the content of total insoluble substance total insoluble substance in concentrate and the former water between the content of total insoluble substance.Usually, concentrate mixed mutually with the water of directly taking from peripheral waters (i.e. " former water ") before the marine environment that is discharged into boats and ships operation marine site.Shown in section 2220, this method comprises that also the water temperature that the temperature of concentrate is adjusted to the concentrate discharge areas roughly is equal to.

In one embodiment, method 2201 also comprises a mixing channel.Usually, mixing channel is placed in the hull space.As described above in detail, mixing channel is used for concentrate was mixed with the former water of directly taking from peripheral waters before the marine environment that is discharged into boats and ships operation marine site.In one embodiment, with reference to mixing channel in the accompanying drawing 19 and described herein being similar to.Certainly, also can use other suitable mixing channel.

In one embodiment, method 2201 also comprises concentrate is disperseed.Usually, concentrate is disperseed in the marine environment that is discharged into boats and ships operation marine site.Method 2201 also comprises a gravity flow screen.In one embodiment, method 1901 just comprises a gravity flow screen.In another embodiment, method 2201 further is included in and arranges a plurality of holes of dispersing the direction location on the gravity flow screen.Concentrate diverting device and foregoing similar.In another embodiment, also comprise in the method 2201 and the gravity flow screen with many holes of dispersing direction location is provided and many thrusts are arranged on these spaces.In one embodiment, the configuration of gravity flow screen is with reference to accompanying drawing 5A recited above and 5B.As selection, the configuration of gravity flow screen can be other suitable alternative mode.

In one embodiment, method 2201 comprises concentrate is discharged from a plurality of places.Comprise concentrate discharging body in the method 2201.Concentrate discharging body in the method 2201 is provided with many discharge sides.As, the discharging body extends from the boats and ships body, and the discharging body is provided with many holes.The discharging body also can comprise many gargle pipes, and each bar gargle pipe stretches to the different degree of depth.

The discharging body can comprise the flotation hose that extends from the main deck of boats and ships to water.The discharging body also can comprise catenary.The method of other alternative discharging concentrate as described previously.In addition, the method for other suitable discharging concentrate also may be utilized.

In one embodiment, method 2201 also comprises the noise that reduces operation.Method 2201 can comprise provides many pipe boxes.In another embodiment, this method comprises provides a plurality of damping componentss.Other is used for being reduced in boats and ships that marine environment carries out the seawater desalination operation can be close with method, system and facility described herein to the method for environmental concerns.Certainly, also can adopt other suitable method.

With reference to accompanying drawing 24, the embodiment that shown is in the method 2401 of the present invention.Method 2401 can be used for to continental rise distribution system transferring electric power, as, the system 1701 in the accompanying drawing 17 recited above.Help to help understanding method 2401 described embodiment as shown in Figure 17 and in the clauses and subclauses of describing accompanying drawing 24.Certainly, the embodiment of this method also can be widely used in other system among the present invention.

Shown in section 2410, method 2410 comprises provides the boats and ships that can be used to generate electricity.These boats and ships can use in foregoing mode.In one embodiment, the dead-weight capacity of this ship is greatly between 10,000 to 500,000 scope.As selection, also can use the ship that other is fit to.

Usually, the generating capacity of boats and ships greatly about 10 megawatts between 100 megawatts.Typically, these boats and ships comprise supply transformer, motor, frequency converter and electric machine controller.Frequency converter is used to control rotating speed of motor and moment of torsion.Among another embodiment, boats and ships also include fuel cell.As selection, other suitable energy production device also can be employed.

At boats and ships is to provide with fossil fuel under the situation of power, and these boats and ships comprise the device of the environmental concerns that reduction produces because of combustion of fossil fuel.Such as in one embodiment, method 2410 comprises that the gas with the boats and ships discharging purifies.In another embodiment, method 2410 includes scourer.Among another alternative embodiment, include particulate filter in the method 2410., also can adopt other suitable mode that is used to remove the boats and ships emission pollutants.

Shown in section 2420, method 2410 comprises is carried energy by boats and ships onshore base distribution system.Can be as mentioned above from the boats and ships conveying energy with reference to accompanying drawing 17.As selection, also can adopt other mode that is fit to carry the energy from boats and ships.The continental rise distribution system can be similar to said system and with reference to Figure 17, and as selection, other continental rise distribution system that is fit to can be used.

As mentioned above, from the device of boats and ships onshore base distribution system transmission of electric energy bank base normally, and be configured to satisfy its special transmission of electricity grid and specification by the power supply authorities in place.In one embodiment, method 2410 comprises and will carry out synchronously from the electric energy of boats and ships to the conveying of continental rise distribution system.To carry out synchronous step from the electric energy that boats and ships are carried to the continental rise distribution system and comprise, the voltage steps of boats and ships to consistent with the voltage of continental rise distribution system, and will be carried out from the electric energy that boats and ships are carried to the continental rise distribution system by second conv synchronously.Also can adopt other suitable method to carry out comprising foregoing method and system synchronously from the electric energy that boats and ships are carried to the continental rise distribution system.As selection, other is suitable will to carry out synchronous method from the electric energy that boats and ships are carried to the continental rise distribution system and also can be suitable for.

With reference to accompanying drawing 25, shown in be an embodiment of method 2501 of the present invention.Method 2501 can be used for desalted water and electric energy transmitting shown in the base distribution system of onshore.As top accompanying drawing 18 described systems 1801.Describe accompanying drawing 25 with reference to the clauses and subclauses in the accompanying drawing 18 and help to help understanding method 2501 described embodiment.Certainly, the embodiment of this method also can be widely used in other system among the present invention.

Shown in section 2510, method 2410 comprises the production of carrying out desalted water and generates electricity.These boats and ships are as described above.In one embodiment, the dead-weight capacity of boats and ships is greatly between 10,000 to 500,000.Certainly also can use the ship that other is fit to.Representative type, the desalted water productive capacity of this ship is proper to be between 1,000,000 gallons to 100,000,000 gallons of every days.The generating capacity of this ship is that 10 megawatts are between 100 megawatts.Certainly also can use the ship that other is fit to.

Usually this ship includes auxiliary transformer, motor, frequency converter and control motor.Frequency converter is used to control the rotating speed and the moment of torsion of motor.Among another embodiment, these boats and ships also comprise a cover fuel cell.Certainly, other suitable energy output device is also applicable.

At boats and ships is to provide with fossil fuel under the situation of power, and these boats and ships comprise that also a cover reduces the device of the environmental concerns that produces because of combustion of fossil fuel.Such as in one embodiment, method 2510 comprises that the gas with the boats and ships discharging purifies.In another embodiment, method 2510 comprises provides scourer.In another alternative embodiment, comprise in the method 2510 particulate filter is provided.As selection, also can adopt other suitable mode that is used to remove the boats and ships emission pollutants.

Shown in section 2520, method 2510 comprises and will be carried to the continental rise water distribution networks by the desalted water of boats and ships production.The continental rise water distribution networks can be with reference to accompanying drawing 18 as mentioned above.As selection, the water distribution networks that also can adopt other to be fit to.

Shown in section 2530, method 2510 comprises carries by boats and ships electric energy to continental rise electricity distribution system.Can be as mentioned above from the boats and ships conveying energy with reference to accompanying drawing 18.As selection, also can adopt other mode that is fit to carry the energy from boats and ships.With reference to accompanying drawing 18, continental rise electricity distribution system and system recited above are similar.As selection, other continental rise that is fit to electricity distribution system also can adopt.

As mentioned above, from the device of boats and ships transmission of electric energy bank base normally, and be configured to satisfy its special power supply grid configuration and specification by the power supply authorities in place.In one embodiment, method 2510 comprises and will carry out synchronously from the electric energy of boats and ships to the conveying of continental rise distribution system.To carry out synchronous step from the electric energy that boats and ships are carried to the continental rise distribution system comprises: the voltage steps of boats and ships to consistent with the voltage of continental rise distribution system, and will be carried out from the electric energy that boats and ships are carried to the continental rise distribution system by second conv synchronously.Also can adopt other suitable method to carry out comprising foregoing method and system synchronously from the electric energy that boats and ships are carried to the continental rise distribution system.As selection, other is suitable will to carry out synchronous method from the electric energy that boats and ships are carried to the continental rise distribution system and also can be suitable for.

With reference to accompanying drawing 26, shown in be an embodiment of method 2601 of the present invention.Method 2601 is used for producing and storage accompanying drawing 19 described clauses and subclauses, describes accompanying drawing 26 with reference to the clauses and subclauses in the accompanying drawing 19 and helps to help understanding method 2601 described embodiment.Certainly, the embodiment of this method also can be widely used in other system among the present invention.

Shown in section 2610, method 2601 comprises the production desalted water.Desalted water can be produced according to method and system recited above.Usually, desalted water is produced on the boat-carrying desalination system.As selection, other suitable method production of desalted water.

Shown in section 2620, method 2601 also comprises desalted water is stored in the tank.Tank is arranged in the hull of boats and ships.Hull comprises first surface and second surface.Tank comprises first surface and second surface.The second surface of tank and the first surface of hull are separated.This hull and tank are shown in top accompanying drawing 19.

In an embodiment of method 2601, the first surface of hull comprises the inside face of boats and ships, and the second surface of hull is the outside face of boats and ships.Be loaded with in tank in the desalted water, the first surface and the desalted water of tank are close.As selection, the first surface of tank also can join with desalted water.Usually, the second surface of tank is separated with a segment distance mutually with the inside face of hull, and this distance is equal to or greater than about two meters.In another embodiment, this distance may be less than two meters.Generally, hull and tank have formed the binary boats and ships.As selection, other hull and tank that is fit to also can be used.

Typically, tank a kind ofly is made of following at least: plastics, thermoplastic base resin, thermosetting resin, poly-vinyl resin, polytetrafluoroethylene, carbon steel and corrosion-resistant steel.Corrosion-resistant steel is selected from the group of being made up of 304 grade stainless steels and 316 grade stainless steels.In one embodiment, method 2601 is included in and applies one deck overplate on the first surface of tank.Overplate generally includes corrosion-resistant steel.In another embodiment, method 2601 is included on the second surface of tank and is attached with sacrificial anode.In another embodiment, all comprise coating on the first surface of tank and the second surface, this coating comprises ground floor, the second layer and the 3rd layer.This coating is shown in top accompanying drawing 19.As selection, other coating that is fit to is also applicable.

In one embodiment, the temperature that comprises the desalted water in the tank of method 2601 remains on above freezing.This method 2601 can be included between the first surface of the second surface of tank and hull insulator is set.Method 2601 also can comprise the space between the first surface of the second surface of tank and hull is heated.As selection, other can keep the temperature of desalted water in the tank also can adopt in method above freezing, comprises foregoing system and method.

System recited above, method and facility can be united flotilla or the fleet that is used to have various functions, as the fleet that only is used to produce the fleet of desalted water or only be used to generate electricity.In such fleet, single ship can be other ship support is provided.Can provide electric power to the ship that is used to produce desalted water as, the ship that is used to generate electricity.In addition, comprise also in the fleet that ship is used to store desalted water and they are transported to seashore or other ship.Such fleet can provide multiple service (and relief is provided to the area that suffers the energy and/or shortage of fresh water) to coastal region.Certainly, the mono-ship also can comprise multi-functional, as producing water, generating and/or storage of water.In one embodiment, can provide electric power to boats and ships by seashore, as, by submarine cable, like this, this ship just needn't have the power plant of oneself.

The present invention be carry out with reference to each embodiment disclosed, the scope that all may not surmount the field of the invention and determine various corrections, corrigendum and the change of described embodiment by claims.Thereby the present invention is not limited to these described embodiment, but defined all scopes in the language with following claim, and be equal to this scope.

Claims (245)

1. one overlaps the system that produces infiltrate, and it comprises:

First boats and ships, these first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships with seawater, and

The device that infiltrate is carried to the continental rise distribution system by these first boats and ships.

2. system according to claim 1, wherein, infiltrate comprises desalted water, concentrate comprises salt solution.

3. system according to claim 1, wherein, the infiltrate feedway comprises second boats and ships, these second boats and ships are used to receive from the infiltrate of first boats and ships and with infiltrate and are transported to the continental rise distribution system.

4. system according to claim 3, wherein, second boats and ships comprise the barge unit, this barge unit comprises that dead-weight capacity is greatly between 10,000 to 500,000.

5. system according to claim 3, wherein, second boats and ships comprise that this mono-hull oil tanker dead-weight capacity is greatly between 10,000 to 500,000 through the mono-hull oil tanker of repacking.

6. system according to claim 1, wherein, the infiltrate feedway comprises pipeline.

7. system according to claim 6, wherein, described pipeline comprises floating pipe.

8. system according to claim 6, wherein, described pipeline comprises that the seabed stablizes pipeline.

9. system according to claim 6, wherein, described pipeline comprises the pipeline of imbedding the seabed.

10. system according to claim 1, wherein, described continental rise distribution system comprises:

Aqua storage tank, described aqua storage tank is arranged on the bank;

The pumping plant that links to each other with aqua storage tank; And

Pipeline that links to each other with pumping plant or pipe network.

11. system according to claim 10 also comprises the chemical substance interpolation station that is arranged in the continental rise distribution system, this chemical substance is added the various mass parameters that station is used to regulate water.

12. system according to claim 10 also comprises the continental rise transport systems.

13. system according to claim 12, wherein, described continental rise transport systems comprises railway or railway network.

14. system according to claim 12, wherein, described continental rise transport systems comprises pot type transport truck or Freight Transport network.

15. system according to claim 1, wherein, the productive capacity of described infiltrate process units is greatly about between every day 1,000,000 gallons to 100,000,000 gallons scopes.

16. system according to claim 1, wherein, described infiltrate process units comprises counter-infiltration system.

17. system according to claim 1, wherein, the part of described infiltrate process units is placed in the top of the main deck of these first boats and ships.

18. system according to claim 3, wherein, described infiltrate process units comprises the device that carries out infiltrate production constantly.

19. system according to claim 1, wherein, described first boats and ships comprise that this mono-hull oil tanker dead-weight capacity is greatly between 10,000 to 150,000 through the mono-hull oil tanker of repacking.

20. system according to claim 1, wherein, described first boats and ships are with respect to the seashore persistent movement.

21. system according to claim 1, wherein, described mixing device comprises the device that is used to regulate described concentrate temperature.

22. system according to claim 1, wherein, described first boats and ships also comprise the packaging system that is used to pack infiltrate.

23. system according to claim 1, wherein, described first boats and ships comprise that also storage has disaster relief supplies.

24. system according to claim 1 also comprises and supports fleet, this support fleet is used for providing following one or more supports to first boats and ships: fuel, complementary goods and supplies, maintenance and more conversion materials and equipment, personnel.

25. produce the system that desalted water provides the disaster rescue service from marine environment, this system comprises: first boats and ships are used to produce desalted water, these first boats and ships comprise first dead-weight capacity, and these first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater with seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships; And

With the device of desalted water to the seashore conveying.

26. system according to claim 25, wherein, described first boats and ships comprise the system that desalted water is packed.

27. system according to claim 26, wherein, the desalted water feedway comprises second boats and ships, and these second boats and ships are used to receive from the desalted water of first boats and ships and with desalted water and are transported to seashore.

28. system according to claim 27, wherein, described second boats and ships can receive the infiltrate from first boats and ships when first boats and ships and second boats and ships all move with respect to seashore.

29. system according to claim 27, wherein, described second boats and ships comprise second dead-weight capacity, and this second dead-weight capacity comprises greatly between 10,000 to 500,000.

30. system according to claim 25, wherein, described first boats and ships comprise that first dead-weight capacity of this mono-hull oil tanker comprises greatly between 10,000 to 150,000 through the mono-hull oil tanker of repacking.

31. system according to claim 25, wherein, described desalted water delivery system comprises the airborne system that transports.

32. system according to claim 31 wherein, describedly airborne transport system and comprises helicopter.

33. system according to claim 31 wherein, describedly airborne transport system and comprises hydroairplane.

34. system according to claim 25, wherein, described first boats and ships comprise that also storage has disaster relief supplies.

35. system according to claim 25, wherein, the speed that described first boats and ships can be produced between about 1,000,000 gallons to 100,000,000 gallons scopes every day is produced desalted water.

36. system according to claim 25, wherein, described first boats and ships comprise counter-infiltration system.

37. system according to claim 25, wherein, the sustainable production desalted water of described first boats and ships.

38. system according to claim 25, wherein, described first boats and ships are with respect to the seashore persistent movement.

39. system according to claim 25 also comprises and supports fleet, this support fleet is used for providing following one or more supports to first boats and ships: fuel, complementary goods and supplies, maintenance and more conversion materials and equipment, personnel.

40. the lighten ship desalination system is to the system of environmental concerns under marine environment, this desalination system is produced infiltrate and concentrate, should be under marine environment the lighten ship desalination system system of environmental concerns is comprised:

Be used for controlling mixing device to the content of the concentrate total insoluble substance of boats and ships periphery waters discharging; And

Be used for the temperature of concentrate is adjusted to the device and first boats and ships that equate substantially with the temperature in boats and ships periphery waters;

Describedly be used for controlling the mixed liquor that is further used for concentrate is mixed with seawater production concentrate and seawater to the mixing device of the content of the concentrate total insoluble substance of boats and ships periphery waters discharging;

These first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production and the device that the mixed liquor of this concentrate and seawater is discharged into described seawater water body from these first boats and ships.

41., also comprise the device that the mixed liquor to concentrate and seawater disperses according to the described system of claim 40.

42., also comprise the device that weakens the ship noise according to the described system of claim 40.

43. according to the described system of claim 40, wherein, described mixing device comprises the chamber that is arranged on the ship inner capacities, and this chamber contains polylith dividing plate, a seawater water inlet, a concentrate inlet and a mixture export, comprises a plurality of holes on the dividing plate of mixing usefulness.

44. according to the described system of claim 41, wherein, described mixed liquor diverting device comprises gravity flow screen.

45. according to the described system of claim 44, wherein, the style of described gravity flow screen comprises by the hole of dispersing the direction location.

46. according to the described system of claim 44, wherein, described gravity flow screen comprises:

A plurality of holes; And

Be arranged on a plurality of intrapore a plurality of thrusts.

47. according to the described system of claim 41, wherein, described mixed liquor diverting device comprises:

From the extended bleed member of hull; And

Be arranged on a plurality of apertures of this bleed member.

48. according to the described system of claim 47, wherein, described bleed member comprises a plurality of gargle pipes, each the bar gargle pipe in these a plurality of gargle pipes extends to the different degree of depth.

49. according to the described system of claim 47, wherein, described bleed member comprises floating hose.

50. according to the described system of claim 49, wherein, described bleed member comprises catenary.

51. according to the described system of claim 42, wherein, described noise reducer comprises a plurality of pipe boxes.

52. according to the described system of claim 42, wherein, described noise reducer comprises a plurality of bumpers.

53. a method of producing infiltrate, it comprises:

First boats and ships are provided, these first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of producing concentrate and the mixed liquor of seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships with seawater, and these first boats and ships can be used for producing infiltrate and can be used for mixed concentrated liquid; And

Infiltrate is transported to the continental rise distribution system from these first boats and ships.

54. according to the described method of claim 53, wherein, described infiltrate comprises desalted water, this concentrate comprises salt solution.

55., wherein, described infiltrate is comprised from the step that first boats and ships are transported to the continental rise distribution system according to the described method of claim 53:

Infiltrate is transported to second boats and ships from described first boats and ships; And

Infiltrate in second boats and ships is transported to immediate continental rise distribution system.

56. according to the described method of claim 55, wherein, described first and second boats and ships move with respect to seashore.

57. according to the described method of claim 55, wherein, described second boats and ships comprise the barge unit, the dead-weight capacity of this barge unit is greatly between 10,000 to 500,000.

58. according to the described system of claim 55, wherein, described second boats and ships comprise that this mono-hull oil tanker comprises that dead-weight capacity is greatly between 10,000 to 500,000 through the mono-hull oil tanker of repacking.

59., wherein, described infiltrate is comprised from the step that described first boats and ships are transported to described continental rise distribution system according to the described method of claim 53:

Infiltrate is transported to pipeline from these first boats and ships; And

The infiltrate that is contained in the pipeline is transported to immediate continental rise distribution system.

60. according to the described method of claim 59, wherein, described pipeline comprises floating pipe.

61. according to the described method of claim 59, wherein, described pipeline comprises that the seabed stablizes pipeline.

62. according to the described method of claim 59, wherein, described pipeline comprises the pipeline of imbedding the seabed.

63., also comprise according to the described method of claim 53:

Aqua storage tank is provided, and described aqua storage tank is arranged on the bank;

Connecting tube or pipe network on this aqua storage tank; And

On this pipeline or pipe network, connect pumping plant.

64. according to the described method of claim 63, also be included in connection chemical substance interpolation station on the described aqua storage tank, this chemical substance is added the various mass parameters that station is used to regulate water.

65., also comprise the continental rise transport systems is provided according to the described method of claim 63.

66. according to the described method of claim 65, wherein, described continental rise transport systems comprises railway or railway network.

67. according to the described method of claim 65, wherein, described continental rise transport systems comprises pot type transport truck or Freight Transport network.

68. according to the described method of claim 53, wherein, the infiltrate throughput rate of described first boats and ships is greatly about between every day 1,000,000 gallons to 100,000,000 gallons scopes.

69., also comprise counter-infiltration system is provided according to the described method of claim 53.

70. according to the described method of claim 53, wherein, described first boats and ships comprise that the dead-weight capacity of this mono-hull oil tanker is greatly between 10,000 to 500,000 through the mono-hull oil tanker of repacking.

71. according to the described method of claim 53, wherein, described first boats and ships are with respect to the seashore persistent movement.

72. according to the described method of claim 54, also comprise described concentrate diluted so that wherein salt content equal around described first boats and ships content of salinity in the waters substantially.

73., also comprise infiltrate packed according to the described method of claim 53.

74. a zone of attacking to suffering a calamity from marine environment production desalted water provides the method for relief, this method comprises:

First boats and ships are provided, these first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater with seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships, these first boats and ships are used to produce desalted water, and these first boats and ships comprise first dead-weight capacity; And

This desalted water is transported to seashore.

75., also comprise desalted water packed according to the described method of claim 74.

76. according to the described method of claim 74, also comprise second boats and ships are provided, these second boats and ships are used to receive from the desalted water of described first boats and ships and with these desalted waters and are transported to seashore, and these second boats and ships have second dead-weight capacity, and this second dead-weight capacity is lower than described first dead-weight capacity.

77. according to the described method of claim 76, wherein, described second boats and ships also can receive the infiltrate from described first boats and ships when described first boats and ships and second boats and ships all move with respect to seashore.

78. according to the described method of claim 76, wherein, described first boats and ships comprise that described first dead-weight capacity comprises greatly about 10 through the mono-hull oil tanker of repacking, between 000 to 500,000, wherein, the dead-weight capacity of described second boats and ships comprises greatly between 10,000 to 500,000.

79., also comprise the aerodrome traffic instrument that provides according to the described method of claim 74.

80. according to the described method of claim 79, wherein, described aerodrome traffic instrument comprises helicopter.

81. according to the described method of claim 79, wherein, described aerodrome traffic instrument comprises hydroairplane.

82., also comprise the storage that provides disaster relief supplies according to the described method of claim 74.

83. according to the described method of claim 74, wherein, described first boats and ships comprise counter-infiltration system, this counter-infiltration system is used for producing desalted water with the speed between 1,000,000 gallons to 100,000,000 gallons of about every days.

84. according to the described method of claim 74, wherein, described first boats and ships are with respect to the seashore persistent movement.

85. according to the described method of claim 74, comprise also many support boats and ships are provided that described many support boats and ships are used for providing following one or more supports to described first boats and ships: fuel, complementary goods and supplies, maintenance and more conversion materials and equipment, personnel.

86. method that alleviates desalted water production to environmental concerns, this desalted water production comprises first boats and ships, these first boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater with seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships, this desalted water production process produces infiltrate and concentrate, and this method comprises:

Concentrate diluted so that the content of total insoluble substance content total insoluble substance in concentrate and on every side in the waters between the total insoluble substance content in the concentrate after diluted; And

Be adjusted to the water temperature in concentrate discharging waters the temperature of concentrate basic identical.

87. 6 described methods also comprise mixed liquor are disperseed according to Claim 8.

88. 7 described methods also comprise providing gravity flow screen so that mixed liquor is disperseed according to Claim 8.

89. 7 described methods according to Claim 8, also be included in be provided with on the described gravity flow screen a plurality of by the hole of dispersing the direction location.

90. 7 described methods according to Claim 8 also comprise:

Provide the gravity flow screen that has a plurality of holes that mixed liquor is disperseed; And

In these a plurality of holes, a plurality of thrusts are set.

91. 6 described methods also are included in a plurality of positions mixed liquor are discharged according to Claim 8.

92. 6 described methods also comprise the mixed liquor bleed member is provided according to Claim 8.

93., also be included in a plurality of apertures be set on the mixed liquor bleed member according to the described method of claim 92.

94. according to the described method of claim 92, wherein, comprise many pipes on the described mixed liquor bleed member, every pipe of described many pipes comprises different length.

95. 6 described methods also comprise and weaken the operation noise according to Claim 8.

96., also comprise providing a plurality of pipe boxes to weaken the operation noise according to the described method of claim 95.

97., also comprise providing a plurality of sound-insulation members to weaken the operation noise according to the described method of claim 95.

98. 6 described methods also comprise providing the mixing channel that is arranged on the ship inner capacities, this mixing channel to comprise polylith dividing plate, a seawater water inlet, a concentrate inlet and a mixture export according to Claim 8.

99. comprise the boats and ships of water purification system, these boats and ships are positioned at the seawater water surface, comprising:

Water intake system, this system comprises water inlet and intake pump;

Counter-infiltration system, this system comprises high-pressure hydraulic pump and reverse osmosis membrane;

The concentrate exhaust system, this system comprises a plurality of concentrate discharge sides;

Mixed system, this system is connected with the concentrate exhaust system with described counter-infiltration system and is used for concentrate is mixed the formation mixed liquor with the water of directly taking from peripheral water body; The infiltrate transfer system, this system comprises the transfer water pump;

Propulsion source; And

Control system,

Wherein

Described counter-infiltration system is connected with described water intake system,

Described mixed system is connected with described counter-infiltration system with described infiltrate transfer system,

Described propulsion source is connected with described water intake system, described counter-infiltration system and described infiltrate transfer system, and described control system is connected with described water intake system, described counter-infiltration system, described mixed system, described infiltrate delivery system and propulsion source.

100. according to the described boats and ships of claim 99, wherein, described mixed system comprises the mixing channel that comprises concentrate inlet, mixture export, the mixing water intake system that comprises intake and water pump, a series of dividing plates, and comprise the mixing dividing plate of a plurality of holes, a plurality of mixed liquor discharge side, wherein, mix one side stile extended to this mixing channel of dividing plate by this mixing channel, wherein, adjacent dividing plate combines with the opposite of mixing channel and arranges mutually with the relation of stagger arrangement, thereby makes the part of each dividing plate and the dividing plate overlaid that closes on.

101., also comprise the propelling unit that is connected with described propulsion source according to the described boats and ships of claim 99.

102., also comprise the independent power source that is used for described water intake system, counter-infiltration system, delivery system and propelling unit according to the described boats and ships of claim 101.

103. according to the described boats and ships of claim 101, wherein, in described water intake system, counter-infiltration system, delivery system and propelling unit two or more of propulsion source provide power.

104. according to the described boats and ships of claim 99, wherein, with a plurality of mixed liquor discharge sides as the auxiliary propulsion plant of these boats and ships or as unique propelling unit of these boats and ships.

105. according to the described boats and ships of claim 104, wherein, a part of described mixed liquor is flowed through propelling unit and propelling idle running or in emergency circumstances is provided.

106. according to the described boats and ships of claim 99, wherein, described propulsion source comprises aerogenerator.

107. according to the described boats and ships of claim 99, wherein, described propulsion source comprises hydraulic propeller, this hydraulic propeller utilizes the current generating around these boats and ships that berth.

108. according to the described boats and ships of claim 99, wherein, described water intake system is included in the one or more holes on the hull of hull underwater.

109., also comprise a plurality of counter-infiltration systems according to the described boats and ships of claim 99.

110. according to the described boats and ships of claim 109, wherein, described a plurality of counter-infiltration systems are installed on the deck of described boats and ships.

111. according to the described boats and ships of claim 109, wherein, described a plurality of counter-infiltration systems are installed on a plurality of horizontal surfaces.

112. according to the described boats and ships of claim 109, wherein, each in described a plurality of counter-infiltration systems all is placed on independently in the container.

113. according to the described boats and ships of claim 109, wherein, described a plurality of counter-infiltration systems are installed with parallel configuration mode.

114. according to the described boats and ships of claim 99, wherein, described infiltrate transfer system can be carried the infiltrate of producing into the infiltrate feedway, this system comprises the transfer vessel device, and these boats and ships and this transfer vessel device are all under sail.

115. according to the described boats and ships of claim 99, wherein, described infiltrate transfer system can be carried the infiltrate of producing into the infiltrate feedway, this system comprises the pipeline that is connected with this infiltrate transfer system.

116. according to the described boats and ships of claim 99, wherein, described control system comprises computer program, this computer program is made and is controlled decision automatically in order to operate this boats and ships.

117. according to the described boats and ships of claim 99, wherein, described a plurality of mixed liquor discharge sides are positioned on the waterline of these boats and ships.

118. according to the described boats and ships of claim 99, wherein, described a plurality of mixed liquor discharge sides are positioned under the waterline of these boats and ships.

119. according to the described boats and ships of claim 99, wherein, described a plurality of mixed liquor discharge sides are arranged by this way: can allow part mix mutually by the propelling unit of these boats and ships with this boats and ships periphery water body from the mixed liquor that these a plurality of mixed liquor discharge sides give off.

120. according to the described boats and ships of claim 99, also comprise many cover counter-infiltration systems, wherein, mixed system is connected with every suit counter-infiltration system.

121. according to the described boats and ships of claim 99, also comprise many cover counter-infiltration systems, wherein, the concentrate that is emitted by each cover counter-infiltration system is collected in many arms, structural box beam or the pipeline of one or more vertical arrangements, wherein, described a plurality of mixed liquor discharge side allows the entity part discharging of mixed liquor along this boats and ships length.

122. according to the described boats and ships of claim 99, wherein, each the mixed liquor discharge side in the described mixed system all be used for auxiliary concentrate being merged mutually with the gravity flow screen that peripheral water body mixes mutually.

123. according to the described boats and ships of claim 122, wherein, each the mixed liquor discharge side in the described mixed system comprises the gravity flow screen that has by the hole of dispersing the direction location.

124. according to the described boats and ships of claim 122, wherein, each the mixed liquor discharge side in the described mixed liquor exhaust system all comprises gravity flow screen, in the hole of this gravity flow screen protrusion is arranged.

125. according to the described boats and ships of claim 99, wherein, the configuration of described mixed liquor discharge side makes the circumference of these mixed liquor discharge sides to change, and also can change the direction of mixed liquor stream.

126. according to the described boats and ships of claim 99, wherein, described mixed liquor exhaust system comprises the member that is extended by this boats and ships shell, has a plurality of mixed liquor discharge sides on this member.

127. according to the described boats and ships of claim 99, wherein, described mixed liquor exhaust system comprises the member of crossing this vessel's side, has a plurality of mixed liquor discharge sides on this member.

128. according to claim 126 or 127 described boats and ships, wherein, described member by floating drum, have the catenary of floating drum or support with the buoyancy that himself had.

129. according to the described boats and ships of claim 99, wherein, each mixed liquor discharge side all is connected on the diverting device so that the mixed liquor discharge side is mobile in a complete hemisphere scope.

130. according to the described boats and ships of claim 99, wherein, described mixed liquor exhaust system also comprises water pump, this water pump is used to increase mixed liquor mixed liquor pressure before by the discharging of mixed liquor exhaust system.

131., also comprise the heat recovery system that is connected with propulsion source exhaust duct, water intake system, control system and counter-infiltration system according to the described boats and ships of claim 99.

132., also comprise the thermal exchange system that is connected with the mixed liquor exhaust system with described counter-infiltration system according to the described boats and ships of claim 99.

133. according to the described boats and ships of claim 99, also comprise the pressure recovery system, this pressure recovery system is used to change the energy that is associated with mixed liquor pressure, and wherein, this pressure recovery system and described high-pressure hydraulic pump are connected with reverse osmosis membrane in the counter-infiltration system.

134. according to the described boats and ships of claim 133, wherein, described pressure recovery system is used for generating.

135. according to the described boats and ships of claim 99, also comprise many cover counter-infiltration systems and pressure recovery system, this pressure recovery system is used to change the energy that is associated with mixed liquor pressure, wherein, this pressure recovery system is connected with a plurality of reverse osmosis membranes.

136., also comprise the noise or the vibrations cancellation element that are connected with the high-pressure hydraulic pump of described counter-infiltration system according to the described boats and ships of claim 99.

137., also comprise the noise or the vibrations cancellation element that are connected with intake pump in the described water intake system according to the described boats and ships of claim 99.

138., also comprise the noise or the vibrations cancellation element that are connected with water pump in the described infiltrate transfer system according to the described boats and ships of claim 99.

139., also comprise the noise or the vibrations cancellation element that are connected with described propulsion source according to the described boats and ships of claim 99.

140. according to the described boats and ships of claim 100, wherein, the water inlet of described mixed system communicates with the water inlet of described water intake system.

141. according to the described boats and ships of claim 100, wherein, described dividing plate is by horizontal direction, horizontal or longitudinal register.

142., also comprise the infiltrate disposal system that is connected with the infiltrate transfer system with the reverse osmosis membrane low pressure side according to the described boats and ships of claim 99.

143. according to the described boats and ships of claim 142, wherein, described infiltrate disposal system comprises the corrosion control system.

144. according to the described boats and ships of claim 142, wherein, described infiltrate disposal system comprises the infiltrate control system.

145. according to the described boats and ships of claim 142, wherein, described infiltrate disposal system comprises the infiltrate decontamination system.

146. according to the described boats and ships of claim 99, also comprise aqua storage tank, pretreatment system, energy recovery system and infiltrate holding tank, wherein, this aqua storage tank is connected with pretreatment system with described water intaking pump, this pretreatment system is connected with high-pressure hydraulic pump with this aqua storage tank, and this energy recovery system is connected with high pressure side, high-pressure hydraulic pump and the mixed liquor exhaust system of described reverse osmosis membrane.

147. according to the described boats and ships of claim 146, wherein, described pretreatment system comprises that fragment at least considers in system, hydraulic accumulator and the surfe tank in advance.

148., also comprise the infiltrate holding tank that is connected with described infiltrate transfer system with described counter-infiltration system according to the described boats and ships of claim 99.

149. according to the described boats and ships of claim 148, also comprise the packaging system that is connected with described infiltrate holding tank, this packaging system comprises the lift pump with water supply pipe, this lift pump is used for extracting infiltrate from described infiltrate holding tank.

150. according to the described boats and ships of claim 99, comprise many cover counter-infiltration systems, wherein, these boats and ships have the ability of producing 5,000 to 450,000 cubic meter infiltrates every day.

151. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is greatly between 10,000 to 500,000.

152. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is greatly between 30,000 to 50,000.

153. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is greatly between 65,000 to 80,000.

154. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is approximately 120,000.

155. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is greatly between 250,000.

156. according to the described boats and ships of claim 99, wherein, the dead-weight capacity of described boats and ships is approximately 500,000.

157. method of on the floating structure body, producing infiltrate, this floating structure body is positioned at the seawater water surface and comprises the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships with seawater, comprising:

Produce infiltrate also output concentrate simultaneously;

Mixed liquor is discharged into peripheral waters by the mixed liquor exhaust system that comprises a plurality of mixed liquor discharge sides.

158. according to the described method of claim 157, wherein, the step of producing infiltrate comprises: water is pressurizeed with water pump pass through counter-infiltration system, this counter-infiltration system comprises high-pressure hydraulic pump and flow elernent, this flow elernent comprises reverse osmosis membrane, wherein, produce concentrate in the high pressure side of reverse osmosis membrane.

159., also comprise when the discharging mixed liquor having the step of on the water surface, navigating by water at this floating structure body according to the described method of claim 157.

160. according to the described method of claim 157, wherein, the step of producing infiltrate comprises: water is passed through many cover counter-infiltration systems with the water pump pressurization, should comprise high-pressure hydraulic pump and flow elernent by many cover counter-infiltration systems, this flow elernent comprises reverse osmosis membrane, wherein, produce concentrate in the high pressure side of this reverse osmosis membrane, and these many cover counter-infiltration system configured in parallel.

161. according to the described method of claim 157, also comprise having the step that the floating structure body navigates by water in one way at the water surface, described mode is a kind of in mode, swing mode and the linear fashion of going in ring substantially.

162., comprise the steps: that also described floating structure body is fixed in the ocean current one to be disperseed mixed liquor with corresponding position, land and by current according to the described method of claim 157.

163. according to the described method of claim 157, wherein, a plurality of mixed liquor discharge sides are positioned on the described floating structure body, like this, the mixed liquor that major part is discharged can mix with peripheral water body mutually by the propelling unit of this floating structure body.

164. according to the described method of claim 157, it is characterized in that, described a plurality of discharge sides can be positioned on the waterline of this floating structure body or under.

165. according to the described method of claim 164, wherein, the step of mixed concentrated liquid comprises: with concentrate and the water of directly taking from peripheral water body before by a plurality of mixed liquor discharge sides dischargings, flow through together and mix dividing plate and a series of dividing plate.

166. according to the described method of claim 157, wherein, described a plurality of mixed liquor discharge sides physically are fixed on the waterline of this floating structure body.

167. according to the described method of claim 157, wherein, described a plurality of mixed liquor discharge sides physically are fixed under the waterline of this floating structure body.

168. according to the described method of claim 158, wherein, the physical fixation mode of described a plurality of mixed liquor discharge sides makes the partially mixed liquid that is discharged to mix mutually with this floating structure body periphery waters under the effect of propelling unit.

169. according to the described method of claim 157, wherein, the step of producing infiltrate comprises: water is passed through many cover counter-infiltration systems with the water pump pressurization, should comprise high-pressure hydraulic pump and flow elernent by many cover counter-infiltration systems, this flow elernent comprises reverse osmosis membrane, wherein, produces concentrate in the high pressure side of reverse osmosis membrane, and these many cover counter-infiltration system configured in parallel, independently the concentrate exhaust system is connected with each counter-infiltration system simultaneously.

170. according to the described method of claim 160, wherein, also comprise the steps: to be collected in many arms, structural box beam or the pipeline of one or more vertical arrangements by the concentrate that emits in every cover counter-infiltration system, wherein, along the floating structure body at certain intervals.

171. according to the described method of claim 157, wherein each mixed liquor discharge side all comprises the gravity flow screen that has by the hole of dispersing the direction location.

172. according to the described method of claim 157, wherein, each mixed liquor discharge side is included in the gravity flow screen that has protrusion on the hole of gravity flow screen.

173. according to the described method of claim 157, wherein, described mixed liquor discharge side is configured to make that the circumference of described mixed liquor discharge side can change, and also can change the direction of mixed liquor stream.

174. according to the described method of claim 157, wherein, described floating structure body berths, described mixed liquor has a plurality of emission points by by the extended parts discharging of this floating structure body shell on these parts.

175. according to the described method of claim 157, wherein, described floating structure body berths, described mixed liquor is by can be in the discharging of the floating parts of the water surface, and this parts floating is that the catenary that utilizes floating drum or have a floating drum supports.

176. according to the described method of claim 157, wherein, each mixed liquor discharge side is installed on the diverting device, makes this discharge side to move in complete hemisphere scope, wherein, this diverting device is in Hooke's coupling, swivel, gimbal table, spheroid and the ball-and-socket one.

177. according to the described method of claim 157, wherein, mixed liquor is pressurized before by a plurality of mixed liquor discharge side dischargings.

178. computer-readable media that is used to alleviate the concentrate environmental concerns with instruction, this computer-readable media is positioned on the floating structure body, this floating structure body is positioned at the seawater water surface and comprises the device that carries out infiltrate production, concentrate is mixed the device of producing concentrate and the mixed liquor of seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these first boats and ships with seawater, thereby this instruction comprises and causes a treater to control system reception and registration signal execution following steps:

Produce infiltrate; And

Mixed liquor is discharged in the water that approaches the mixed liquor exhaust system by the mixed liquor discharge side, and wherein, the total insoluble substance content in the mixed liquor that is discharged is suitable with the content that approaches total insoluble substance in the water of this floating structure body.

179. according to the described computer-readable media of claim 178, also comprise store instruction, this store instruction comprises: when carrying out, can cause control system and carry out with water pump with the instruction of water pressurization by the step of counter-infiltration system by treater.

180. according to the described computer-readable media of claim 178, also comprise store instruction, this store instruction comprises: can cause control system and carry out concentrate and flow through together before by a plurality of mixed liquor discharge sides dischargings instruction of step of mixing dividing plate and a series of dividing plates of the water of directly taking from peripheral water body when carrying out by treater.

181. according to the described computer-readable media of claim 178, also comprise store instruction, this store instruction comprises: when carrying out, can cause control system and carry out with water pump with the instruction of water pressurization by the step of many cover counter-infiltration systems by treater.

182. according to the described computer-readable media of claim 178, also comprise store instruction, this store instruction comprises: can cause the instruction that concentrate that control system produces in carrying out each counter-infiltration system is collected in arm, structural box beam or the ducted step of one or more vertical layouts when carrying out by treater.

183. a cover is produced the system of desalted water and generating, it comprises:

Be used to produce the boats and ships of desalted water and generating, these boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater with seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these boats and ships;

The device that desalted water is carried to the continental rise water distribution system from these boats and ships; And

Be used to produce the device of electric energy;

The device that electric power is shifted to the continental rise electric power distribution system from these boats and ships.

184. according to the described system of claim 183, wherein, described boats and ships comprise that dead-weight capacity is greatly between 10,000 to 500,000.

185. according to the described system of claim 183, wherein, the desalted water productive capacity of described boats and ships is greatly about between 1,000,000 gallons to 100,000,000 gallons of every days.

186. according to the described system of claim 183, boats and ships wherein also comprise:

Spare transformer;

Motor;

Be used to control the frequency converter of motor speed and moment of torsion; And

Electric machine controller; Wherein, spare transformer is connected with frequency converter with motor; Electric machine controller is connected with voltage transformer, frequency converter.

187., wherein, described electric power is also comprised to the device that the continental rise electric power distribution system shifts from these boats and ships according to the described system of claim 183:

Electrical generator step-up transformer, this electrical generator step-up transformer be used for from the voltage steps of these boats and ships to basic identical with the voltage of continental rise distribution system; And

The energy that second conv, this second conv are used for carrying to the continental rise distribution system from these boats and ships carries out synchronously.

188. according to the described system of claim 183, wherein, the generating capacity of described boats and ships comprises greatly about 10 megawatts between 100 megawatts.

189. according to the described system of claim 183, wherein, described boats and ships comprise the device that cleans emission gases.

190. according to the described system of claim 189, wherein, the device of described cleaning emission gases comprises scourer.

191. according to the described system of claim 189, wherein, the device of cleaning emission gases comprises particulate filter.

192. boats and ships that are used to produce and deposit dehydration salt, these boats and ships are positioned at the seawater water surface, comprising:

Shell with first surface and second surface;

Be used to produce the device of desalted water;

Be used for device that concentrate is mixed with seawater;

Be used for the mixed liquor of concentrate and seawater is discharged into the device of described seawater water body from these boats and ships, and

Be used to store the device of desalted water, this water storage device comprises the tank that is placed in the shell, and this tank comprises first surface and second surface, and the second surface of tank and the first surface of shell are separated.

193. according to the described boats and ships of claim 192, wherein, the first surface of described shell comprises the inside face of these boats and ships, the second surface of described shell comprises the outside face of these boats and ships.

194. according to the described boats and ships of claim 192, wherein, the second surface of described tank and the first surface of the described shell segment distance of being separated by, this distance at least approximately is two meters.

195. according to the described boats and ships of claim 192, wherein, described tank comprises a kind of in cement concrete, plastics, thermoplastic base resin, thermosetting resin, poly-vinyl resin, polytetrafluoroethylene, carbon steel and the corrosion-resistant steel at least.

196. according to the described boats and ships of claim 195, wherein, described corrosion-resistant steel is selected from the group of 304 grade stainless steels and 316 grade stainless steels composition.

197. according to the described boats and ships of claim 192, wherein, the first surface of described tank contacts with described desalted water.

198. according to the described boats and ships of claim 196, wherein, the first surface of described tank has one deck overplate, this overplate comprises corrosion-resistant steel.

199., wherein, be connected with sacrificial anode on the second surface of described tank according to the described boats and ships of claim 192.

200. according to the described boats and ships of claim 192, wherein, the first surface of described tank and second surface all comprise one deck coating, this coating comprises ground floor, the second layer and the 3rd layer.

201. according to the described boats and ships of claim 200, wherein, the ground floor of described tank first surface is a kind of in bi-component epoxide-resin, zinc rich primer, vinyl coating, fast dry coal tar enamel coating and the commercial priming paint.

202. according to the described boats and ships of claim 200, wherein, the second layer of described tank first surface is bi-component epoxide-resin, vinyl coating, coldly uses a kind of in the coal tar coating.

203. according to the described boats and ships of claim 200, wherein, the 3rd layer of described tank first surface is that bi-component epoxide-resin, vinyl coating, cold coal tar coating and the heat used are used a kind of in the coal tar coating.

204. according to the described boats and ships of claim 200, wherein, the ground floor of described tank second surface is to contain a kind of in alkide resin priming paint, vinyl coating, bi-component epoxide-resin and the zinc rich primer of anticorrosive pigment.

205., wherein, comprise iron oxide red oxide, zinc oxide, oils and alkide resin priming paint in the described alkide resin priming paint that contains anticorrosive pigment according to the described boats and ships of claim 204.

206. according to the described boats and ships of claim 200, wherein, the second layer of described tank second surface is a kind of in prefabricated aluminized coating, alkide resin enamel, alkide resin coating, vinyl coating and the bi-component epoxide-resin.

207. according to the described boats and ships of claim 200, wherein, the 3rd layer of described tank second surface is a kind of in prefabricated aluminized coating, alkide resin enamel, vinyl coating and the bi-component aliphatic polyurethane coating.

208., also comprise being used for keeping being contained in the desalted water temperature of tank at device above freezing according to the described boats and ships of claim 192.

209. a method of producing desalted water and generating, it comprises:

Boats and ships are provided, these boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these boats and ships with seawater, and these boats and ships are used to produce desalted water and generating;

Desalted water is shifted to the continental rise water distribution system from these boats and ships; And

Be used to produce the device of electric energy;

Electric power is shifted to the continental rise electric power distribution system from these boats and ships.

210. according to the described method of claim 209, wherein, the dead-weight capacity of described boats and ships comprises greatly between 10,000 to 500,000.

211. according to the described method of claim 209, wherein, the desalted water productive capacity of described boats and ships is greatly about between every day 1,000,000 gallons to 100,000,000 gallons scopes.

212. according to the described method of claim 209, wherein, described boats and ships also comprise:

Spare transformer;

Motor;

Be used to control the frequency converter of motor speed and moment of torsion; And

Electric machine controller; Wherein, spare transformer is connected with frequency converter with motor; Electric machine controller is connected with voltage transformer, frequency converter.

213. according to the described method of claim 209, wherein, described boats and ships also comprise fuel cell.

214., also comprise according to the described method of claim 209:

Will be from the voltage steps of these boats and ships to basic identical with the voltage of continental rise distribution system; And

To carry out synchronously from the electricity that these boats and ships are carried to the continental rise distribution system.

215. according to the described method of claim 209, wherein, the generating capacity of boats and ships in 10 megawatts between 100 megawatts.

216., comprise that also the gas to the boats and ships discharging cleans according to the described method of claim 209.

217., also be included in a scourer be provided on the boats and ships according to the described method of claim 216.

218., also be included in a particulate filter be provided on the boats and ships according to the described method of claim 216.

219. method that is used on the boats and ships sea water desalination being produced desalted water, these boats and ships are positioned at the seawater water surface and comprise the device that carries out infiltrate production, concentrate is mixed the device of the mixed liquor of producing concentrate and seawater and the mixed liquor of this concentrate and seawater is discharged into the device of described seawater water body from these boats and ships with seawater, and this method comprises:

Produce desalted water;

With concentrate and sea water mixing; And

Desalted water is stored in the tank, and this tank is placed in the shell of boats and ships, and this shell comprises first surface and second surface, and this tank comprises first surface and second surface, and the second surface of this tank and the first surface of this shell are separated.

220. according to the described method of claim 219, wherein, the first surface of described shell comprises the inside face of these boats and ships, the second surface of described shell comprises the outside face of these boats and ships.

221. according to the described method of claim 219, wherein, the second surface of described tank and the inside face of the described shell segment distance of being separated by, this distance is approximately two meters at least.

222. according to the described method of claim 219, wherein, described tank comprises a kind of in plastics, thermoplastic base resin, thermosetting resin, poly-vinyl resin, polytetrafluoroethylene, carbon steel and the corrosion-resistant steel at least.

223. according to the described method of claim 222, wherein, described corrosion-resistant steel is selected from the group of 304 grade stainless steels and 316 grade stainless steels composition.

224. according to the described method of claim 219, wherein, the first surface of described tank contacts with desalted water.

225. according to the described method of claim 223, comprise that further the first surface of described tank connects one deck overplate, this overplate is a corrosion-resistant steel.

226., further comprise on the second surface of described tank being connected with sacrificial anode according to the described method of claim 219.

227. according to the described method of claim 219, wherein, the first surface of described tank and second surface all comprise one deck coating, this coating has ground floor, the second layer and the 3rd layer.

228., comprise that also the desalted water temperature that keeps being contained in the tank is above freezing according to the described method of claim 219.

229., also be included between the first surface of the second surface of described tank and described shell and place insulator according to the described method of claim 228.

230., also comprise the space between the first surface of the second surface of described tank and described shell heated according to the described method of claim 228.

231. a seagoing vessel that is used for sea water desalination is produced the band shell of desalted water is characterized in that this seagoing vessel comprises:

Be installed on the described hull and be used for salinity from seawater desalination system that seawater is eliminated;

Be installed on the described hull and be used for seawater is delivered to from ocean water body the water intake system of described seawater desalination system;

The concentrate exhaust system that is installed on the hull and is used for concentrate is discharged to described ocean water body from described hull;

Be installed in the mixed system on the described hull, this mixed system is connected with the concentrate exhaust system with described seawater desalination system and is used for described concentrate was diluted with seawater before being discharged into described ocean water body by described exhaust system; And

Be installed in the desalted water delivery system on the described hull, this delivery system is used for desalted water is delivered to a device so that carry desalted water to the continental rise distribution system by hull from described seawater desalination system.

232., it is characterized in that described mixed system comprises be used for mixing channel that concentrate was diluted with seawater before being discharged into described ocean water body by described concentrate exhaust system by described first seagoing vessel according to the described seagoing vessel of claim 231.

233., it is characterized in that described mixing mixing channel comprises concentrate water inlet, mixed liquor water outlet, polylith dividing plate and mixes fence according to the described seagoing vessel of claim 232.

234. according to the described seagoing vessel of claim 232, it is characterized in that described mixing channel comprises concentrate water inlet, mixed liquor water outlet, be used to dilute the seawater inlet of concentrate and be used for concentrate and sea water mixing are diluted concentrate to form the device of abundant homogenous mixts.

235. according to the described seagoing vessel of claim 234, it is characterized in that, describedly be used for concentrate and sea water mixing and dilute concentrate comprising the high speed paddle mixer with the device that forms abundant homogenous mixts.

236. according to the described seagoing vessel of claim 234, it is characterized in that, describedly be used for concentrate and sea water mixing and dilute concentrate comprising the static(al) mixer with the device that forms abundant homogenous mixts.

237., it is characterized in that described seawater desalination system comprises counter-infiltration system according to the described seagoing vessel of claim 231.

238., it is characterized in that described seawater desalination system is used for producing fully continuously desalted water according to the described seagoing vessel of claim 231.

239. one kind from marine environment production dehydration salt and to the method that continental rise provides, and it is characterized in that, may further comprise the steps:

First seagoing vessel that is positioned at the seawater water surface is provided, is equipped with in this seagoing vessel and is used for salinity from seawater desalination system that seawater is eliminated, be used for seawater is delivered to from the seawater water body water intake system of described seawater desalination system, be used for concentrate exhaust system that concentrate is discharged to described seawater water body from described first seagoing vessel, the mixed system that is connected and is used for concentrate was diluted with seawater before being discharged into the seawater water body by described exhaust system with described concentrate exhaust system with described seawater desalination system, and be used for desalted water from described seawater desalination system transmissions to a device so that by the desalted water delivery system of described first seagoing vessel conveying desalted water to the continental rise distribution system; And desalted water carried to described continental rise distribution system by described first seagoing vessel.

240., it is characterized in that the described step that desalted water is carried to the continental rise distribution system by described first seagoing vessel comprises according to the described method of claim 239:

Described desalted water is delivered to pipeline by described first seagoing vessel;

With described desalted water by described ducting to described continental rise distribution system.

241., it is characterized in that described pipeline comprises the pipeline that is fixed on the seabed according to the described method of claim 240.

242., it is characterized in that described pipeline comprises the pipeline of imbedding in the seabed according to the described method of claim 240.

243. according to the described method of claim 239, it is characterized in that, further comprising the steps of:

Aqua storage tank is provided, and described aqua storage tank is arranged on the bank;

Connecting tube or plumbing system on aqua storage tank;

On pipeline or plumbing system, connect pumping plant.

244., it is characterized in that the speed of production of desalted water is between 10,000,000 gallons to 100,000,000 gallons of every days according to the described method of claim 239.

245., it is characterized in that described seawater desalination system comprises counter-infiltration system according to the described method of claim 239.

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