EP2435175A1

EP2435175A1 - Device for the simultaneous evaporation and metering of an evaporable liquid and associated method

Info

Publication number: EP2435175A1
Application number: EP10725015A
Authority: EP
Inventors: Berthold Jodocy; Markus Wess; Thorsten Fischer
Original assignee: Ruhr Oel GmbH
Current assignee: Ruhr Oel GmbH
Priority date: 2009-05-28
Filing date: 2010-05-26
Publication date: 2012-04-04
Also published as: CN102448599A; DE102009023010A1; JP2012527989A; RU2011153691A; RU2528657C2; WO2010136203A1; JP5697267B2

Abstract

The invention relates to a device for the simultaneous evaporation and metering of an evaporable liquid and an associated method. Metering devices used hitherto for evaporable liquids which are to be introduced as an additive into large industrial plants, e.g. during crude oil distillation, are not optimal on account of the pump technology selected and the associated maintenance. In order to ensure high and continuous metering accuracy and to make it possible for the additive to be fed to a metering point in gaseous form and in a metered fashion, a device is proposed which has the following components: at least one storage container (1) for the evaporable liquid, a mass flowmeter (5) which is connected downstream of the storage container via a line and measures the mass of liquid led through, a control valve (6) which is connected downstream of the mass flowmeter via a line and can be set in accordance with the metering stipulations, a feed device (7) which makes it possible to feed a carrier gas into a line between control valve and a metering point (9). A further storage container (2) can be connected in parallel. The storage containers can be connected up or isolated separately via connecting valves (3) and (4). The device is suitable in particular for metering trimethylamine into a crude oil distillation column for the purpose of neutralizing the head vapors.

Description

Device for the simultaneous evaporation and dosing of an evaporable liquid and associated method

The invention relates to a device for simultaneously vaporizing and dosing a vaporizable liquid and an associated method. In particular, the liquid is metered dosed and the gas phase thus generated targeted introduced into a gas space containing other gases or vapors.

More particularly, the invention relates to the metering of small amounts of an evaporable liquid into a significantly larger, partially condensed stream of vaporous hydrocarbons, which may also include water vapor fractions, particularly the overhead vapors of a crude distillation column, to chemically bind or contain the acids contained therein or substances producing water to neutralize.

This can be achieved by adding certain additives, namely amines. Particularly suitable as such an additive is trimethylamine (TMA). A disadvantage, however, is that TMA is highly flammable and amines generally trigger serious odor problems during their release.

The prior art for dosing an evaporable liquid as mentioned above is a specially developed dosing equipment. In this case, the dosage takes place via diaphragm pumps. Stroke size and chamber volume allow a measurement of the volume delivered. However, this structure has the following significant disadvantages. The pressure at the metering point at the top of the crude oil column defines the pressure level in the metering line, about 3 bar (abs.). For 2.5 bar (abs.), The evaporation temperature of the trimethylamine preferably used is 30 ° C. At 3 bar (abs.) It exceeds 35 ^° C. If the evaporation space does not reliably assume this temperature, no evaporation is ensured. The normal outside temperatures in Central Europe are usually below those required for evaporation, so that aids are necessary, for. B. the supply of heat of evaporation.

Crude oil columns tower about 40 meters high. They are due to their size outdoors and are exposed to the weather, especially temperature fluctuations. This aggravates the dosing problem described at low outside temperatures.

The described dosing equipment according to the prior art does not have a device which continuously ensures a constant dosing rate at the point of injection into the main flow of the top vapors of the column. Another disadvantage of this metering equipment is the chosen pump technology. The running time of a diaphragm pump is limited by the number of load cycles that the diaphragm endures. Therefore, even with optimum maintenance, it is usually the unwanted opening of a system that contains a highly inflammable and extremely odor-intensive substance in the present case.

The object is therefore to provide an apparatus and a method which ensures a high and continuous dosing accuracy and makes it possible to supply the additive in gaseous form and metered to a dosing point.

This object has been achieved by a device according to claim 1.

The requirements of such a device, which solves the above problem, are high. For optimum effect, it is necessary that the additive is introduced continuously in gaseous form. In the case of application of a crude oil distillation column, underdosing results in the acids or acid-forming substances contained in the hydrocarbon stream, in particular chlorides, leading to considerable corrosion problems. An overdose must also be avoided, as otherwise compounds are formed, which can cause severe damage in any downstream olefin plants. The entire dosing system must have, among other things because of the odor problem an increased tightness.

The inventive device has to fulfill the object of the invention a plurality of lines (pipes) connected components, namely at least one reservoir, a mass meter, a control valve and a feeder.

The reservoir contains the vaporizable liquid or the additive. Usually, the additive in the container is supplied externally. The container may preferably be separated from the device according to the invention and reconnected. This also applies to essentially identical replacement containers. The container is of its dimensions, design and material designed so that it meets the technical requirements, the device of the invention provides. It is within the skill of one of ordinary skill in the art to select or make a suitable container.

The mass meter, which is connected downstream of the reservoir by pipeline, measures how much vaporizable liquid is withdrawn from the reservoir per unit time. Such mass meters are commercially available.

The control valve, which is connected downstream of the mass meter by pipeline, is set according to the dosing instructions and thus doses the amount of liquid passed through.

The feeding device, which is connected downstream of the control valve via the pipe, makes it possible to introduce carrier gas into the line between the control valve and the metering point. The supplied carrier gas promotes the evaporation of the additive. It is therefore advantageous to place the delivery device as close as possible to the control valve. In a particular embodiment of the invention, at least one further reservoir is connected in parallel to the reservoir. This is advantageous to ensure uninterrupted dosing. This can be done by switching from an empty container to a filled parallel installed one. In order for it to be possible to switch over from the emptied to the filled container, each container preferably contains a fill level monitoring unit which is installed in the line between the reservoir and the mass meter. The switching can also be done automatically when the level monitoring unit is connected to a corresponding controller.

The vaporizable liquid is preferably gaseous under normal conditions. For various reasons, u. a. because of the delivery or the transport of the additive in the described containers and also because of the selected in the mass measurement technique, which requires a liquid state, the reservoir with an inert gas so far under a pressure exceeding the atmospheric pressure is set, that in the expected Temperatures the additive is always present predominantly in the liquid state of matter in the container. The person skilled in the art is familiar with suitable inert gases. The suitability of an inert gas depends on the particular application. Nitrogen is a preferred inert gas in combination with trimethylamine as an additive to neutralize crude distillation head vapors.

In the particular application of the neutralization of the overhead vapors of a crude distillation distillation column with a suitable additive such as TMA, it is advantageous if the metering point is located in the top region of the column. It is both possible that the metering is located directly at the top of the column or in the initial region of the laxative Kopfdämpfeleitung.

In the line from the reservoir to the mass meter a Zuschaltventil is preferably installed. This is used to separate an emptied and / or the

- A - Connecting a filled with vaporizable liquid container from or to the device according to the invention. To ensure the evaporation of the liquid and to avoid condensation, the line between the control valve and metering preferably at least partially on a heater. Because of the weather-related conditions already described, for example in a crude oil distillation column, it is advantageous if in particular a heating device is mounted between the feeding device and metering. Suitable heating devices are known to the person skilled in the art. These may be, for example, electric powered heaters. In principle, it is also possible to heat the line with steam or another heat transfer medium.

For the possible case of an external fire, the device is to be protected against container crash. This is preferably done by installing at least one safety valve in the device according to the invention, which dissipates the content by piping to a safe place when exceeding a defined pressure in the container, preferably in a flare system.

In order to make repairs to the device according to the invention, it is advantageous to provide a cleaning facility. Especially in the case of the trimethylamine preferably used, there is a substance which on the one hand is extremely flammable and on the other hand extremely odor-intensive. The lines of the device according to the invention are therefore preferably connected and optionally provided with valves that they can be completely or partially rinsed with a gaseous medium. This gaseous medium may be, for example, an inert gas such as nitrogen. However, in the case of using, for example, trimethylamine as an additive, water vapor is preferably used. This has the advantage that the steam absorbs the additive and thus virtually completely eliminates both the risk of ignition and a possible odor nuisance. The invention further relates to a method for simultaneously vaporizing and dosing an evaporable liquid. In this method, the vaporizable liquid passes from a reservoir via a line and a mass meter to a control valve, where it is expanded to a lower pressure and in addition to the line between the control valve and the dosing a carrier gas is supplied. Preferably, the level of the reservoir is monitored by a level monitoring unit, which is located between the reservoir and mass meter.

Has proved to be beneficial if at least one other reservoir, preferably with a respective further level monitoring unit, is connected in parallel to the first reservoir.

It is favorable if the storage containers can be switched on or off via a respective connection valve. A particular embodiment of the method according to the invention provides that a filled storage container is then switched on if it is detected via the filling level monitoring unit of a currently switched-on storage container that it has run empty. This can be automated as far as possible. For example, it is conceivable that in the event of a deflated container, the monitoring unit triggers circuits of connection valves via a controller, which separate the empty container from the mass meter and connect a second filled container with the mass meter and the downstream remaining device according to the invention.

It is advantageous if mass meter and control valve are connected to a central control system. This detects the current metering rate by means of the mass meter and the control valve is readjusted according to the setpoint deviation. The control system thus compares the current metering rate determined by the mass meter with the desired value and possibly changes the position of the control valve. The control valve relaxes the liquid to evaporation pressure. In order to ensure the evaporation, the line between the control valve and metering can be at least partially heated. The heater provides the required heat of evaporation. But it can also serve to prevent condensation of the vaporized additive in the line to the dosing. Such heating of the line to the dosing is advantageous when the Rohölkolonne together with the device according to the invention is in temperate latitudes and is exposed to the weather. Otherwise, there would be a risk that the additive in the line up to the top of the crude distillation column condenses up to 40 meters in height due to weather-induced cold again.

If the process according to the invention is used in a crude oil distillation, the additive supplied in this way usually serves to neutralize the top vapors of the column. For these purposes, trimethylamine is preferably used as the evaporable liquid. The neutralization of acidic components protects the pipelines and subsequent components from the column from corrosion.

Trimethylamine is preferably used as additive in the process according to the invention.

In order to favor the evaporation of the additive or to preclude a subsequent condensation, preferably not only the already described heating device is used. Rather, the inventive method provides that a carrier gas is used. For reasons already mentioned, nitrogen is a particularly suitable carrier gas for many applications.

Preferably, the vaporized liquid is fed or injected into the head region of a crude distillation column. The additive, in particular trimethylamine, serves to neutralize the acid constituents occurring there. Preferably, the regulation of the dosage is carried out via the pH of the wash water of the crude oil distillation. The success control of the neutralization and thus also the setpoint for the metering rate is thus supplied by the pH measurement of the accumulating in the return tank of the column top wastewater.

For a precise dosage of the additive, preferably trimethylamine, it is important that it is liquid in the mass meter. This is advantageous because it eliminates the measured value corrections that would have to be made if the additive was present in gaseous form and corresponding volumes or currents had to be measured. In order to ensure the liquid state of matter, the storage container with carrier gas, preferably nitrogen, are placed under a pressure in the inventive method, which is sufficient at the expected ambient temperatures to prevent a complete transition from the liquid to the gas phase. Preferably, the reservoir is thus superimposed with carrier gas with increased pressure. For obvious reasons, it is advantageous if this pressure is higher than that in the line between the control valve and metering. The flow direction is predetermined. Preferably, the pressure in the line between the control valve and metering 0.1 to 30 barÜ, in particular 1 to 10 barÜ and preferably 1, 5 to 2 barÜ.

Since an additive such as trimethylamine in pure form is highly flammable and unpleasantly very odor-intensive, the method according to the invention provides, in a particular embodiment, the possibility of being able to rinse all components of the device. Water vapor is used as a particularly suitable flushing medium. For example, water can take up TMA in larger amounts and at the same time suppress the aforementioned negative properties of the additive.

The device according to the invention is preferably used for carrying out the method according to the invention. FIG. 1 shows a schematic representation of an embodiment of the device according to the invention. Two reservoirs (1) and (2) for the vaporizable liquid connected in parallel can be connected to the remaining part of the device according to the invention via corresponding lines in each case via associated connecting valves (3) or (4). The vaporizable liquid is passed from the reservoir through a mass meter (5), which measures the liquid mass per unit time, and is dosed by the downstream control valve (6) according to the specifications. By the simultaneous relaxation to a lower pressure, the liquid is at least partially evaporated. From the connecting valve (6) leads a line to the metering point (9). A feeding device (7) makes it possible to introduce carrier gas in this line. This carrier gas is taken from a reservoir (8) and promotes the evaporation of the additive.

LIST OF REFERENCE NUMBERS

1 storage container 1

2 storage container 2

3 Supply valve for storage tank 1

4 connection valve for storage tank 2

5 mass meters

6 control valve

7 feeding device carrier gas

8 reservoir carrier gas

9 dosing point

Claims

claims

1. A device for simultaneous evaporation and dosing of an evaporable liquid, comprising the following components:

• at least one reservoir for the vaporizable liquid

• a mass meter, which is connected downstream of the reservoir via a pipe and measures the liquid mass

• a control valve, which is connected downstream of the mass meter via a line and can be set according to the dosage specifications

• A supply device, which makes it possible to supply a carrier gas in a line between the control valve and a metering point.

2. Apparatus according to claim 1, characterized in that at least one further reservoir is connected in parallel to the reservoir.

3. Apparatus according to claim 1 or claim 2, characterized in that between the reservoir and mass meter a level monitoring unit is interposed.

4. Device according to at least one of the preceding claims, characterized in that the vaporizable liquid is gaseous under normal conditions.

5. The device according to at least one of the preceding claims, characterized in that the laxative from the reservoir line is provided with a Zuschaltventil.

6. Device according to at least one of the preceding claims, characterized in that the metering point is located in the head region of a crude oil distillation column.

7. The device according to at least one of the preceding claims, characterized in that the device has at least one built-in safety valve against overpressure.

8. The device according to at least one of the preceding claims, characterized in that the device can be completely or partially rinsed with a gaseous medium, in particular with steam.

9. The device according to at least one of the preceding claims, characterized in that the line between the control valve and metering, in particular between the feeding device and metering, is at least partially provided with a heater.

10. A method for vaporizing and dosing a vaporizable liquid by this passes from a reservoir via a line and a mass meter to a control valve, where it is expanded to a lower pressure and additionally fed into the line between the control valve and the dosing a carrier gas becomes.

1 1. A method according to claim 10, characterized in that the level of the reservoir is monitored via a filling level monitoring unit located between the reservoir and the mass meter.

12. The method according to at least one of the preceding method claims, characterized in that at least one further reservoir, preferably each with a further level monitoring unit, is connected in parallel to the first reservoir.

13. The method according to at least one of the preceding method claims, characterized in that the storage containers are switched on or off in each case via a Zuschaltventil.

14. The method according to at least one of the preceding method claims, characterized in that a filled reservoir is switched on when it is detected via the level monitoring unit of a currently switched reservoir that it is empty.

15. The method according to at least one of the preceding method claims, characterized in that the mass meter and control valve is connected to a central control system, wherein detected by means of the mass meter, the current metering rate and the control valve is readjusted according to the setpoint deviation.

16. The method according to at least one of the preceding method claims, characterized in that for the purpose of complete evaporation of the vaporizable liquid, the line between the control valve and metering is at least partially heated.

17. The method according to at least one of the preceding method claims, characterized in that the pressure in the line between the control valve and metering 0.1 to 30 barÜ, in particular 1 to 10 barÜ, preferably

1, 5 to 2 barÜ.

18. The method according to at least one of the preceding method claims, characterized in that trimethylamine is used as vaporizable liquid.

19. The method according to at least one of the preceding method claims, characterized in that nitrogen is used as the carrier gas.

20. The method according to at least one of the preceding method claims, characterized in that water vapor is used as the rinsing medium.

21. The method according to at least one of the preceding method claims, characterized in that the evaporated liquid is fed into the head region of a crude oil distillation column.

22. The method according to at least one of the preceding method claims, characterized in that the control of the dosage via the pH of the wash water of the crude oil distillation takes place.

23. The method according to at least one of the preceding method claims, characterized in that the reservoir is superimposed with carrier gas with increased pressure, which is higher than the pressure in the line between the control valve and metering.

4. Use of a device according to claims 1 to 9 in a method according to claims 10 to 23.