DE102007058068A1 - Liquid i.e. thermal water, conveying device for use in geothermal plant, has feed pump connected with drive unit that comprises engine, where engine cooperates with hydromechanical drive that is coupled with feed pump - Google Patents

Abstract

The device has a feed pump (10) connected with a drive unit that comprises an engine (20) e.g. electric motor, where the engine cooperates with a hydromechanical drive (25) that is coupled with the feed pump. The engine is coupled with a hydraulic pump (23) that is hydraulically connected with the hydromechanical drive by a hydraulic circuit. The hydraulic circuit has hydraulic and branch lines (24, 27) to connect the hydromechanical drive to the hydraulic pump. The hydraulic circuit has a conveyor line (11) that is connected with the hydraulic pump. An independent claim is also included for a method for conveying liquids from underground sources to the earth's surface.

Description

The The invention relates to a device for conveying liquids, in particular Thermal water, according to the generic term of claim 1. Furthermore, the invention relates to the use Such a device and a method with for conveying Liquids, especially thermal water.

to Electricity generation is known to form geothermal energy of hot Use thermal water. At the same time, the heat of the thermal water becomes one geothermal plant, preferably a working medium circuit, In particular, Organic Rankine cycle cycle (ORC cycle), fed, being the working fluid is evaporated and fed to a turbine. As a result, mechanical work is performed in the turbine, which in turn is converted into electricity in a generator. The thermal water becomes common obtained from underground sources or depots. Because that in the earth heated Water usually not up to the ground level is due, this must from the depth through a hole in the earth earth's surface be pumped. Known devices therefore have a pump, especially depth pump, on, the below the calm water level is placed in the borehole. The depth pump is doing by a Electric motor driven, with the depth pump in the hole is introduced. The electric motor comes with cables with the power supply connected, with relatively long cables are used, since the Ruhr water level a few hundred below ground level can lie.

at known devices, the electric motor, which is within the borehole is located, from the hot Thermal water flows around and thus permanently exposed to high temperatures. That has the disadvantage that the engine often overheats maintenance or must be brought to the surface from the borehole for replacement. These The procedure is complex and leads to relatively high downtime, reducing cost-effectiveness and predictability of the geothermal plant is adversely affected.

It Therefore, the object of the invention is a device for conveying Liquids, Specifically, thermal water, indicate that by a high reliability and ease of maintenance, allowing for predictability and economy, in particular a geothermal plant is improved.

According to the invention this Object with regard to the device for conveying liquids, in particular thermal water, by the subject-matter of the patent claim 1, with regard to the use of such a device by the subject-matter of claim 14 and with regard to the method to promote of liquids, in particular Thermal water, solved by the subject of claim 15.

Of the The invention is based on the idea of a device for conveying Liquids, especially thermal water, with a feed pump, which is equipped with a drive unit is to indicate, wherein the drive unit is a motor includes. The motor interacts with a hydro-mechanical drive, the one with the feed pump is coupled.

On this way it is possible the engine from the feed pump to operate away. Preferably, the engine is at one Place arranged, which is easily accessible, allowing maintenance, Repair and / or replacement of the engine promptly and quickly possible. As a result, the downtime of the device in case of a defect the engine opposite the State of the art can be greatly reduced, reducing cost-effectiveness the device is increased. It is also possible To arrange the engine such that increased wear of the engine for example by flow around of thermal water, is avoided. Indirect coupling of the engine with the pump over the hydromechanical drive provides the prerequisite for a flexible Arrangement of the engine, the spatially largely independent from the position of the feed pump, in particular the depth pump is. The engine can therefore be outside the thermal water flow, especially on the earth's surface, be arranged. In this way, a thermal and hydraulic decoupling The drive unit reaches, so not only electric motors thermally be less heavily loaded. Rather, it is also possible internal combustion engines to use as the engine of the drive unit, which so far due the arrangement in the borehole was not possible.

at a preferred embodiment the device according to the invention the engine is coupled with a hydraulic pump that works with the hydromechanical Drive is hydraulically connected. In this way, the mechanical Transferring energy from the engine to a hydraulic fluid, which is used to drive the hydromechanical drive. The Using a hydraulic pump has the advantage that the engine not mechanically connected to the hydromechanical drive, so that the engine can be arranged at almost any location. The hydraulic pump may also have an integrated motor.

Preferably, the hydraulic connection to a hydraulic circuit. The hydraulics Circuit may include the hydraulic pump, the hydromechanical drive and at least one pipe that connects the hydromechanical drive with the hydraulic pump.

at a particularly preferred embodiment the hydraulic circuit comprises a delivery line of the delivery pump, the delivery line connected to the hydraulic pump. That means the delivery line the feed pump fulfilled two functions. On the one hand, the funding line serves the ones to be promoted Liquid, especially the one to be promoted Thermal water to the earth's surface to lead. On the other hand, the delivery line forms part of the hydraulic circuit and is hydraulically connected to the hydraulic pump. To this Way, a particularly compact and simply constructed device, especially as far as the hydraulic circuit is concerned. In addition to delivery line can be vorgese hen a hydraulic combination, the hydromechanical Drive and the hydraulic pump connects. There are two lines, namely the support line and the hydraulic line available, which is the flow and return of the hydromechanical drive or the hydraulic pump can form. Further can the hydraulic line at least partially within the delivery line be arranged. This will make a quick, easy, and easy to maintain Coupling of the hydraulic pump achieved with the hydromechanical drive.

Further the hydraulic circuit may comprise a hydraulic fluid which is the to be promoted Liquid, especially thermal water. In this way, the too promotional liquid be reused as hydraulic fluid, so by the use an additional one Hydraulic fluid can be dispensed with.

at a preferred embodiment includes the feed pump a depth pump, the at least partially vertical Promoting Liquids, especially thermal water, adapted from boreholes.

Further can the feed pump by a shaft and / or a mechanical transmission with the hydromechanical Drive be coupled. In this way, a low-loss and Constant coupling of the feed pump with the hydromechanical drive allows the transmission may have multiple switching stages.

Of Further, the engine by a shaft and / or a transmission with be coupled to the hydraulic pump. Preferably, the engine is outside the support line arranged. The engine is thus not exposed to the fluid to be pumped, thereby the maintenance of the engine is simplified.

at a further preferred embodiment the device forms part of an ORC system, in particular for geothermal power generation.

Of the The invention is further based on the idea of using a Such device for conveying of liquids, in particular thermal water from below ground sources and / or depots indicated by pipelines at least to the surface of the earth.

Of Furthermore, the invention is based on the idea of a method to promote of liquids, in particular thermal water, from underground springs and / or Specify depots by pipes with a hydromechanical drive, the is hydraulically connected to a hydraulic pump, wherein the promotional liquid is used to drive the hydromechanical drive.

Thereby, that the hydraulic fluid to be conveyed liquid corresponds, lead Leakage of the hydraulic line does not lead to contamination of the pumped Liquid, when the hydraulic line is disposed within the delivery line.

Further may be the fluid used to drive the hydromechanical drive, So the hydraulic fluid with the pumped liquid pumped together become. It is therefore not necessary to provide an additional pipe for pumping back to provide the hydraulic fluid.

It It is noted that the term pipeline and configurations this term in the context of this application both pipes and hose or hose lines.

The Invention will be described below with reference to the prior art and a Embodiment below Reference to the attached schematic drawings closer explained. Show

1 a device for conveying liquids according to the prior art; and

2 a device according to the invention for conveying liquids according to a preferred embodiment.

According to the prior art ( 1 ) is the feed pump 10 a known device for conveying liquids, in particular thermal water within a conveyor line 11 arranged, with the delivery line 11 is arranged in a borehole. Since thermal water is usually at great depths, the borehole can be down to a depth of several hundred meters below the top of the terrain 5 extend. The attached Drawings take this fact into account by dashed lines. The pump 10 is in the prior art by a motor shaft 22 with an electric motor 20 coupled within the delivery line 11 is arranged. A power line 21 who are within the promotion line 11 extends to the earth's surface, connects the electric motor 20 with a power supply 30 , The power supply 30 is outside the promotion line 11 arranged.

When pumping thermal water according to the prior art, the feed pump 10 the support line 11 lowered to the water level of the thermal water in the ground. During operation of the device, the electric motor drives 20 over the wave 22 the delivery pump 10 so that the deep stored hot thermal water is pumped to the earth's surface. The hot thermal water flows around the electric motor 20 around, which heats it up. This in addition to the intrinsic heat that the electric motor 20 generated on the electric motor 20 acting heat energy leads to a relatively large thermal load on the electric motor 20 , reducing the life of the electric motor 20 is reduced. For maintenance, repair or replacement of the engine 20 this must be via the support line 11 be brought from the borehole to the surface. Especially with deep holes this process is time consuming and leads to high downtime of the connected geothermal plant.

2 shows a preferred embodiment of a device according to the invention with a feed pump 10 who are within a promotion line 11 is arranged. The support line 11 is arranged in a borehole for the development of a thermal spring or a depot. The pump 10 is by a drive shaft 26 with a hydromechanical drive 25 coupled. The hydromechanical drive 25 and the delivery pump 10 are arranged so close to each other that a mechanical drive coupling between drive 25 and delivery pump 10 is possible. Through a hydraulic line 24 is the hydromechanical drive with a hydraulic pump 23 connected by a motor shaft 22 with a motor, in particular electric motor 20 , is coupled. The electric motor 20 is also through a power line 21 with a power supply 30 connected. The hydraulic pump 23 , the electric motor 20 as well as the power supply 30 are outside the promotion line 11 , preferably above the ground level 5 arranged. The hydraulic line 24 connects the arranged outside the delivery line drive train consisting of the hydraulic pump 23 , the electric motor 20 and the power supply 30 , with the within the promotion line 11 arranged hydromechanical drive 25 , Preferably, the hydraulic line leads 24 above the ground level 5 in the promotion line 11 and is with most of their length within the delivery line 11 arranged. The support line 11 also has a branch line 27 on that the delivery line 11 with the hydraulic pump 23 combines. In this way forms the hydraulic pump 23 and the hydromechanical drive 25 together with the Hydaulikleitung 24 , the support line 11 and the branch line 27 a hydraulic circuit, wherein the delivery line 11 together with the branch line 27 the flow and the hydraulic line 24 the return of the hydraulic pump 23 form.

During operation of the device, the hydraulic pump 23 through the electric motor 20 powered, with the power transmission through the motor shaft 22 he follows. As the hydraulic fluid is preferably the liquid to be delivered, in this embodiment, thermal water, used by the hydraulic pump 23 over the branch line 27 from the support line 11 is sucked. The sucked in thermal water is in the hydraulic pump 23 compressed and under increased pressure via the hydraulic line 24 the hydromechanical drive 25 fed, where it performs mechanical work, it relaxes and then the delivery line 11 is supplied. The hydromechanical drive 25 generated mechanical energy, preferably rotational energy, is transmitted via the drive shaft 26 to the pump 10 forwarded, so that the thermal water is pumped from the depth to the earth's surface.

It is possible that the thermal water before feeding to the hydraulic pump 23 a pretreatment is supplied. For example, the thermal water before the supply to the hydraulic pump 23 cooled, cleaned, filtered and / or chemically, physically or biologically pretreated.

Furthermore, the engine can 20 for driving the hydraulic pump 23 have an electric motor or an internal combustion engine. Other drives are also possible.

It is conceivable that the hydraulic fluid is not identical to the fluid to be delivered. Preferably, the hydraulic fluid is in one of the delivery line 11 separate hydraulic return from the hydromechanical drive 25 to the hydraulic pump 23 returned. In this case, one is from the delivery line 11 branching branch line 27 not mandatory. Even with identity of the liquid to be delivered with the hydraulic fluid, a separate return of the hydraulic fluid can be provided. In general, the hydraulic lines can have a flexible line, in particular a hose line.

5

ground level

10

feed pump

11

delivery line

20

electric motor

21

power line

22

motor shaft

23

hydraulic pump

24

hydraulic line

25

hydromechanical drive

26

drive shaft

27

branch line

30

power supply

Claims (16)

Device for conveying liquids, in particular thermal water, with a delivery pump ( 10 ), which is connected to a drive unit, wherein the drive unit is a motor ( 20 ), characterized in that the engine ( 20 ) with a hydromechanical drive ( 25 ) cooperating with the feed pump ( 10 ) is coupled. Device according to claim 1, characterized in that the engine ( 20 ) with a hydraulic pump ( 23 ) coupled with the hydromechanical drive ( 25 ) is hydraulically connected. Device according to claim 2, characterized in that the hydraulic coupling has a hydraulic circuit. Apparatus according to claim 3, characterized in that the hydraulic circuit, the hydraulic pump ( 23 ), the hydromechanical drive ( 25 ) and at least one pipeline ( 11 . 24 . 27 ), the hydromechanical drive ( 25 ) and the hydraulic pump ( 23 ) connects. Apparatus according to claim 3 or 4, characterized in that the hydraulic circuit is a delivery line ( 11 ) of the feed pump ( 10 ) connected to the hydraulic pump ( 23 ) connected is. Apparatus according to claim 5, characterized in that in addition to the delivery line ( 11 ) a hydraulic line ( 24 ) is provided, the hydromechanical drive ( 25 ) and the hydraulic pump ( 23 ) connects. Device according to at least one of claims 3-5, characterized characterized in that the hydraulic circuit comprises a hydraulic fluid, that the one to be promoted Liquid, especially thermal water. Apparatus according to claim 7, characterized in that the hydraulic line ( 24 ) at least in sections within the funding line ( 11 ) is arranged. Device according to at least one of claims 1-8, characterized in that the feed pump ( 11 ) comprises a depth pump, which is adapted for at least partially vertical conveying of liquids, in particular thermal water from Erdbohrungen. Device according to at least one of claims 1-9, characterized in that the feed pump ( 11 ) by a wave ( 26 ) and / or a transmission mechanically with the hydromechanical drive ( 25 ) is coupled. Device according to at least one of claims 2-10, characterized in that the engine ( 20 ) by a wave ( 22 ) and / or a transmission with the hydraulic pump ( 23 ) is coupled. Device according to at least one of claims 5-11, characterized in that the engine ( 20 ) outside the funding line ( 11 ) is arranged. Device according to at least one of claims 1-12, characterized in that the device is part of an ORC system, especially for geothermal power generation forms. Use of a device according to claim 1 for conveying liquids, in particular thermal water, from underground sources and / or depots through pipelines ( 11 ) at least to the surface of the earth. Method for conveying liquids, in particular thermal water, from underground sources and / or depots through pipelines ( 11 ) with a hydromechanical drive ( 25 ), with a hydraulic pump ( 23 ) is hydraulically connected, wherein the liquid to be conveyed for driving the hydromechanical drive ( 25 ) is being used. A method according to claim 15, characterized in that for driving the hydromechanical drive ( 25 ) used liquid is pumped together with the pumped liquid.