DE19702292A1 - Recovery of potable water by reverse osmosis using mains pressure - Google Patents

Abstract

A filtering method recovers drinking water from a main. It is taken at mains pressure for reverse-osmosis filtration. The flow is divided into and designated as, service- and potable water streams, the former being sent directly to consumers. The potable water stream is sent for reverse osmosis. Energy is extracted from the service water stream during its consumption by the user, this energy being used to raise the system pressure of the potable water stream, to that required for the reverse osmosis process. Also claimed is the corresponding equipment for potable water recovery. A hydropump provides the required pressure increase. This may be externally driven in addition. Some water sent for reverse osmosis (13) leaves as permeate, entering the reservoir (21). The remainder becomes a concentrate (of impurities) which is returned into the service water stream, being first passed through flow restriction. The permeate is cooled in the reservoir. The pump inlet for the water designated potable, has reverse flow protection. The reverse osmosis unit is cooled by the drinking water supplied. Permeate passes through filters (20).

Description

The invention relates to a method for filtering, especially when extracting potable water from under System pressure standing in a pipeline Raw water using a filtering reverse osmosis device. The invention also relates to a device for filtering, especially when extracting potable water from under System pressure of raw water piped by means of a filtering reverse osmosis device, preferably to carry out the aforementioned method.

It is known from contaminated with dissolved foreign substances Raw water with the help of a reverse osmosis device to obtain drinkable water. The required osmotic Pressure is generated by a pump for its operation  Energy is to be provided, e.g. B. in the form of electrical Electricity with which an electric motor to drive the pump is supplied.

Apart from the cost-intensive equipment is also the ongoing operation of the reverse osmosis facility cost by providing the necessary energy more intense.

In reverse osmosis, a significant part of the treated raw water as a heavily contaminated concentrate. The In the known processes, concentrate is simply called Waste water is disposed of and lost. Only part of the supplied raw water, which is much lower than that Part of the concentrate disposed of as wastewater remains reverse osmosis as permeate, that is, as pure Water usable for drinking, its production costs are correspondingly high.

The invention has for its object a method To provide, which is an inexpensive preparation of Water to pure, drinkable water with the help of the reverse osmosis Device allows, as well as a device for performing to find the procedure.

This object is achieved in that a Raw water flow conducted in the pipeline into a utility water flow and a drinking water flow is branched that the Utility water flow is directed to a consumer that the Drinking water flow is directed to the reverse osmosis facility, that the process water energy when the consumer is switched on  is withdrawn and that the withdrawn energy of the process water current is used to measure the system pressure of the drinking water flow to the pressure required for the reverse osmosis device increase.

In the method according to the invention, the raw water flow branched off utility water flow to a consumer guided. Pressure is generated when the consumer is switched on gradient between the branching of the raw water flow and the Connection point of the consumer in the process water flow. That now flowing utility water flow, the energy contained is extracted and to generate the pressure required for filtering, especially the osmotic pressure in the reverse osmosis unit direction used. To withdraw and withdraw the energy implement speaking by driving facilities be able to control the pressure of a drinking water current to one necessary for the reverse osmosis device Common, known techniques and techniques can increase value Apparatus are used to fulfill the above Suitable purposes and are designed. By the invention Utilization of the energy contained in the raw water supplied potentials for operating a pressure booster device falls in the known method for operating the Reverse osmosis device requires additional use Energy. As a result, this can be inexpensive as a pure, drink usable permeate obtained from reverse osmosis will.  

By branching the raw water flow into one lower drinking water flow in quantity and a larger one Process water flow is in the method according to the invention Amount of concentrate obtained from drinking water extraction advantageously kept lower than in the known Procedure is the case. The concentrate is not like that of the known methods as waste water, but according to a Development of the invention initiated in the process water flow and, together with the process water, a consumer, e.g. B. a washing machine, toilet flush or the like supplied, in contrast to useless wastewater, another Subject to use by one or more consumers.

For increasing the system pressure to that for the Reverse osmosis device necessary pressure, a hydro pump used. The hydraulic pump is dimensioned so that it the pressure required for the reverse osmosis device brings. The drive for the hydraulic pump becomes one for its own Operation required energy from the process water flow Pump drive used. The pump drive is special Advantage only from the energy of the process water flow ge drove.

The most economical use of drinking water current is achieved in that a portion of the Reverse osmosis device initiated drinking water flow as Permeate from the reverse osmosis device into a store is directed and that the remaining portion of the reverse osmosis Established drinking water flow as a concentrate in  the process water flow is initiated. That ge in memory conducted permeate can be removed for drinking purposes if necessary will. The supply for drinking purposes is through that Permeate-collecting storage even when demand fluctuates ensured. The one introduced into the process water flow Concentrate is removed from the reverse osmosis device and the process water flow diverted from the raw water flow added. To increase the amount of refluxing concentrate regulate, the current of the process water Concentrate throttled before discharge.

The temperature of the permeate fed into the storage can be kept down with particular advantage, that the permeate introduced into the storage from the raw water flow is cooled. By cooling the permeate when it is carried out of the method according to the invention is a risk of Contamination of the permeate is minimized. That for cooling Raw water can be used after it has served its cooling purposes has, the production of drinkable water according to the invention be forwarded. Another possibility is the contamination of the Preventing drinking water means that reverse osmosis Device is cooled by the supplied drinking water flow. In addition to cooling the permeate, a Cooling of the introduced into the reverse osmosis device Drinking water to prevent contamination of a filter, here to reduce the reverse osmosis device.

To the pressure required in the reverse osmosis device Maintain a backflow of water into the hydraulic pump  initiated drinking water flow to the raw water flow before Inlet in the hydraulic pump blocked.

An additional treatment of the drinkable water is achieved in that in the reverse osmosis device resulting permeate is passed through at least one filter. It is therefore possible to pass the permeate stream to manage various filters or other devices and thus a desired quality of the drinkable water to reach. It can e.g. B. for mineralization or Deacidification of the permeate uses a mineralization filter will.

A device for extracting drinkable water from under pressure in a pipeline Raw water using a reverse osmosis device, in particular to carry out the method, is characterized in that the pipeline that conducts the raw water is a branch to which downstream for the inlet of the reverse osmosis Establishing leading drinking water flow pipeline and one too a utility water flow pipeline leading a consumer is connected and that a flow through the process water flow and thereby working with the energy of the process water flow Pump drive is provided, the one the necessary pressure for the reverse osmosis device generating hydraulic pump drives.

In the device according to the invention, the Energy of the utility water flow preferably when switched on Consumer working pump drive drive the hydraulic pump,  which the necessary pressure for the reverse osmosis device generated without the use of additional energy for the Operation of the pump drive is required.

The pump drive of the hydraulic pump can act as a stroke displacement motor be formed, but a single stroke also multi-stroke referred to as linear stroke displacement motors Pump drives can be used. The one from the hub Displacement motor driven hydraulic pump can be used as a stroke displacer be designed pump. The stroke displacement pump is in con structurally an advantageous simple design of the Hydraulic pump.

Another possible training for the pump drive for the hydraulic pump could be a rotary displacement motor, whereby all the generic term of the rotary displacement motor assigned drives, such as. B. vane motors, Gear machines or the like can be used. In the Use of a type of rotary displacement motor Pump drive for the hydraulic pump can be called the hydraulic pump Circulation displacement pump to be designed. The drive shaft of the Circulation displacement pump and the output shaft of the circulation pump drive motors are coupled with each other, either directly or e.g. B. by means of a gear. The circulation pump can e.g. B. as a vane pump, a gear pump or the like.

A possible constructive design of the hub displacement motor provides that the stroke displacement motor one includes pipe cylinder through which useful water flows, in which  a double acting piston with different dimensioned piston surfaces and that the one Depending on the flow of pipe through the useful water flow interrupting from the piston position in the tubular cylinder Closure member is provided. Through that the process water flow interrupting closure member is the direction of piston movement controllable depending on the piston position and is therefore a external control otherwise not required.

The stroke displacement motor is preferably with one on the Fastening member equipped spring. So that can Locking element in the raised position from the piston surface against the benefit flowing through the stroke displacement motor water flow are kept and at the same time are the piston and the closure member elastically connected to each other so that Cyclic operation of the stroke displacement motor is possible is. This is particularly possible because the piston with a flow channel running axially through the piston is equipped, the one located in the upper piston surface Entry opening is assigned to the closure member, which as the inlet cover body is formed that the closure member by means of the spring in from the piston surface lifted position is held in the flow channel is open and that the closure member immediately before reaching the upper piston end position of the piston in the tubular cylinder the upper cover of the tubular cylinder can be brought to a stop and against further movement of the piston into its end position  the force of the spring in the closed position for the Flow channel is movable, and vice versa.

The most compact possible design of the stroke displacement motor and the stroke displacement pump is achieved in that a as Stroke displacement motor present pump drive and one as a stroke displacement pump present their respective one Pistons have common piston rod and in one Unit are summarized. By connecting the hub displacement motor and the stroke displacement pump by means of the pistons rod is not an additional, maintenance-prone mechanism required. Due to the compact design of the hub displacement motor and the stroke displacement pump is a place saving arrangement in the household z. B. in a kitchen under one Sink possible. This arrangement results in short Supply routes to consumers, such as B. one Dishwasher and tapping points for drinking purposes suitable water. The stroke displacement motor and the stroke positive displacement pumps can also be used with appropriate dimensions sionation separately and not as a structural unit.

This results in an optimally compact design of the device achievable that the piston of the pump drive and hydraulic pump having common piston rod as a hollow cylinder is formed and that the reverse osmosis device in the hollow cylinder is installed. This arrangement of reverse osmosis Furnishing brings the often desirable compact design with itself and reduces pressure losses due to the short closing routes. But it is also possible that the hydraulic pump and  the reverse osmosis device is arranged separately from one another are. A desired compact design is the further conducive to the fact that the inlet of the reverse osmosis-A direction to the pressure chamber, which serves in particular as a cooling space the hydraulic pump is connected. It can be used in the Hydraulic pump generated pressure without loss of supply in the Develop reverse osmosis facility.

For cooling the reverse osmosis device is in front seen that between the trained as a hollow cylinder Piston rod of the hydraulic pump and the cylinder wall of the Cylinder of the hydraulic pump located the annulus fed drinking water flow from bottom to top flowing cold room is. The cold room can also be an additional branched-off drinking water flow can be supplied as a cooling medium, so that over the entire length of the hydraulic pump, which in is essentially determined by the dimensions of the osmosis Facility, particularly the area of their osmosis membrane, that drinking water introduced into the reverse osmosis device is coolable. With a separate arrangement of the hydraulic pump and The reverse osmosis facility could also be an additional one Cooling device can be used.

For cooling the permeate collected in the storage can be provided that predetermined areas of the wall of the Storage parts of a heat exchanger are and that of heat The raw water supplied as a cooling medium can flow through the exchanger is. The raw water can be supplied to the heat exchanger as a cooling medium be led and then for the production of drinkable water  can be used advantageously without an additional Cooling medium is necessary.

For the derivation of the concentrate from the reverse osmosis Device is provided that at an outlet of the Reverse osmosis device a supply channel is connected, the one in the passage of the utility water flow Area of the pump drive opens out, which area the Industrial water flow happens. The point of introduction of the concentrate is with the supply duct near the inlet opening the flow channel of the piston of the pump drive is arranged, so that what occurs in the reverse osmosis device Concentrate can be easily introduced into the process water flow can and is supplied to the consumer. To the amount of in regulate the flow of useful water introduced provided that a throttle is arranged in the supply duct is. The throttle is e.g. B. an adjustable choke that a cross-sectional nozzle with throttle screw can be trained. This is the concentrate flow through the Throttle screw variable in the reverse osmosis device. Of the Pressure of the concentrate in the reverse osmosis device can to different filters, here membranes Reverse osmosis device can be advantageously adapted. The Reverse osmosis device, in particular its membrane optimally flushed, which means cost-intensive cleaning operate the reverse osmosis device to a minimum are set. By the in the reverse osmosis facility  flowing, swirling stream of drinking water revives of the drinkable water.

The hydraulic pump generates relatively high pressure in the conducted drinking water flow. To prevent backflow for branching, is in the drinking water flow Pipeline before the flow of drinking water into the Hydraulic pump used a check valve. The setback valve is an automatic inlet valve, so none additional control for the hydraulic pump is required.

To the quality of the in the reverse osmosis facility as Permeate water is further improved provided that at least one in a derivative of the permeate Filter is inserted. Through further filters, for. Legs Mineralization, magnetization and so on Permeates possible.

The permeate obtained after reverse osmosis is in one Storage can be collected, so that even with fluctuating demand drinkable water a supply is thus ensured.

The device according to the invention can also be used in the known methods are used, for. B. an energy recovery from an unthrottled concentrate stream to achieve known methods. The energy gained could then in addition to driving the osmotic pressure generating pump can be used.

The method and the device are not only usable for the production of drinkable water, but that principle of dividing a current according to the invention  supplied liquid under system pressure into a untreated liquid flow and a z. B. liquid flow to be filtered, the untreated Extracted pressure energy is used to remove the fluid flow Pressure in the liquid flow to be treated on one for its Treatment can increase the required working pressure can also be used for other applications. It is conceivable, for. B. water softening by means of nanofiltration.

An embodiment of the invention from which further inventive features are shown in the drawing posed. Show it:

Fig. 1 is a schematic representation of a device, in particular for performing the method and

Fig. 2 is an enlarged view of the device, in which a stroke displacement motor is shown, the piston is in the upper piston end position.

Fig. 1 shows the designed as Hubverdrängermotor pump drive 40 of the inventive device. The Hubver dräger motor 40 has a tubular cylinder 26 in which a piston 27 is arranged axially movable. The tubular cylinder 26 has an upper cover 9 and a lower cover 32 . The upper cover 9 has an inlet duct 8 which conducts the useful water flow into the tubular cylinder 26 and an inlet duct 7 which conducts the drinking water flow into a stroke displacement pump 39 . The lower cover is equipped with a throttle 34 useful water flow outlet 33 which directs the useful water flow 35 to a consumer, not shown. The lower end of a piston rod 44, which is guided axially through the upper cover 9 , is connected to the piston 27 by the screws 29 , 29 ′. The screws 29 , 29 'run through spacer sleeves 36 , 36 '. An approximately cup-shaped closure member 24 is arranged on the lower end face of the piston rod 44 . The piston is a double-loadable piston 27 with different sized the single-existing piston rod 44 piston surfaces 42, 43 and has an axially extending through the piston 27 flow channel 41, which formed on the upper piston surface 42 inlet opening 46 the closure member 24 is associated . The closure member 24 , as shown in FIG. 1, is held in a position raised from the piston surface 42 by means of a spring 30 . The closure organ 24 is formed as an inlet opening 46 , with corresponding sealing shoulders, covering the body. A stud 31 attached to the lower cover 32 projects into the flow channel 41 .

The hydraulic pump is shown as a stroke displacement pump 39 in FIG. 1. The stroke displacement pump 39 has a cylinder 11 which is arranged vertically on the upper cover 9 of the stroke displacement motor 40 . The cylinder 11 encloses the piston rod 44 designed as a hollow cylinder 12 . The piston 15 arranged at the free end of the hollow cylinder 12 slides, sealed by means of the piston ring 38 , in the cylinder 11 of the stroke displacement pump 39 . A reverse osmosis device 13 is installed in the hollow cylinder 12 . The pressure chamber 10 , which is in the form of an annular space, is located between the piston rod 44 in the form of a hollow cylinder 12 and the cylinder wall of the cylinder 11 . The pressure chamber 10 is connected to the reverse osmosis device 13 through inlet channels 14 , 14 '.

The reverse osmosis device 13 has a membrane 23 .

Arranged in the lower region of the hollow cylinder 12 is a feed duct 45 which connects the reverse osmosis device 13 to the flow duct 41 and has a throttle 47 .

A permeate outlet is arranged in the upper region of the hollow cylinder 12 . A permeate flow pipeline 18 connected to the permeate outlet 17 leads the permeate flow to a filter 20 and further to a memory designed as a heat exchanger 21 . For the removal of the permeate as drinkable water, a removal 22 is arranged on the heat exchanger 21 . A raw water flow pipeline 1 carrying raw water as coolant flow 2 is connected to the cooling circuit of the heat exchanger 21 .

The connected to the outlet of the cooling circuit of the heat exchanger 21 raw water flow pipeline 1 'has a Ver branch 3 , on the downstream one leading to the inlet channel 7 of the stroke displacement pump 39 drinking water flow pipe 4 and one leading to the inlet channel 8 of the stroke displacement motor 40 useful water flow pipe 5 connected.

The device works as follows:
Due to the consumption of useful water from a switched-on consumer, useful water flows through the tubular cylinder 26 of the stroke displacement motor 40 . The closure member 24 is in the position raised from the piston surface 42 , so that the system pressure of the raw water flow pipeline 1 prevails in the upper pressure chamber 25 and in the lower pressure chamber 28 . Because of the differently dimensioned piston surfaces 42 , 43 , because the lower piston surface 43 is larger than the upper piston surface 42 partially covered by the piston rod 44 with the closure member 24 , the piston 27 moves with the piston rod 44 upwards until the piston 27 the upper piston Has reached the end position. At the same time, a suction stroke of the hydraulic pump is effected. When the upper piston end position of the piston 27 is reached , the closure member 24 strikes against the upper tubular cylinder cover 9 . The flow channel 45 is closed against the force of the spring 30 by the closure member 24 sealing the inlet opening 46 , as shown in FIG. 2. So that no process water passes more through the flow channel 41 in the lower pressure chamber 28 of the cylinder tube 26th The process water flowing out through the process water flow outlet 33 reduces the pressure in the lower pressure chamber 28 and the higher system pressure present in the upper pressure chamber 25 causes the piston 27 to be moved downward. The piston 15 of the stroke displacement pump, which is coupled to the piston of the stroke displacement motor via the piston rod 44 , likewise moves downward and thus increases the pressure of the drinking water introduced into the reverse osmosis device 13 , since a return flow of the introduced drinking water into the drinking water flow pipeline 4 is prevented by the check valve 6 . The reverse osmosis device 13 begins, based on the known principle, due to the osmotic pressure that is present, with the generation of permeate, which is passed as pure, drinkable water through a filter 20 to a storage device. The memory is designed as a heat exchanger 21 and is cooled by the raw water stream used for the production of drinkable water. Through the removal 22 from the storage tank designed as a heat exchanger 21 , pure, drinkable water can be removed.

The concentrate stream is passed through the feed channel 45 and the flow channel 41 into the process water stream flowing to one or more consumers. When the lower piston end position of the piston 27 is reached, the locking member 24 is brought into a position raised from the piston surface 42 by the stud bolt 31 . The flow channel 41 can thus flow through the process water flow again and the described process can be repeated cyclically.

Claims (31)

1. A method for filtering, in particular in the production of drinkable water from raw water under system pressure in a pipeline by means of a filtering reverse osmosis device, characterized in that a piped raw water stream is branched into a useful water stream and a drinking water stream that the Utility water flow is directed to a consumer, that the drinking water stream is directed to the reverse osmosis device, that energy is taken from the utility water flow when the consumer is switched on, and that the extracted energy from the utility water flow is used to adjust the system pressure of the drinking water flow to that for the reverse osmosis device ( 13 ) increase necessary pressure. 2. The method according to claim 1, characterized in that for increasing the system pressure to that for reversing osmosis device necessary pressure uses a hydraulic pump becomes.   3. The method according to claim 2, characterized in that for the withdrawal of the energy from the process water flow Hydraulic pump driving pump drive is used. 4. The method according to any one of claims 1-3, characterized in that a portion of the reverse osmosis A device (13) introduced drinking water stream as the permeate from the reverse osmosis device (13) emerges and is passed into a memory (21) and that the remaining portion of the drinking water flow introduced into the reverse osmosis device ( 13 ) is introduced as a concentrate into the process water flow. 5. The method according to claim 4, characterized in that the permeate from the raw water stream introduced into the storage tank is cooled. 6. The method according to any one of claims 1-5, characterized ge indicates that the current introduced into the process water flow of the concentrate is throttled before being introduced. 7. The method according to any one of claims 1-6, characterized ge indicates that a reflux of the in the hydraulic pump initiated drinking water flow to the raw water flow before Entry into the hydraulic pump is blocked.   8. The method according to any one of claims 1-8, characterized in that the reverse osmosis device ( 13 ) is cooled by the supplied drinking water stream. 9. The method according to any one of the preceding claims, characterized in that the permeate flowing out of the reverse osmosis device ( 13 ) is passed through at least one filter ( 20 ). 10. Apparatus for the production of drinkable water from system pressure in a pipeline ( 1 ) directed raw water by means of a reverse osmosis device, in particular for carrying out the method according to claims 1-9, characterized in that the raw water conducting piping has a branch ( 3 ), to which a drinking water flow pipeline ( 4 ) leading to the inlet of the reverse osmosis device ( 13 ) and a utility water flow pipeline ( 5 ) leading to a consumer is connected downstream, and that a flow through which the useful water flow flows and at the same time with the energy of the Working water flow pump drive is provided which drives a hydraulic pump generating the pressure required for the reverse osmosis device ( 13 ). 11. The device according to claim 10, characterized in that that the pump drive is designed as a stroke displacement motor is.   12. The apparatus according to claim 11, characterized in that the stroke displacement motor ( 40 ) comprises a tubular cylinder ( 26 ) through which the useful water flow flows, in which a double-acting piston ( 27 ) with differently dimensioned piston surfaces ( 42 , 43 ) is guided and that a the flow of useful water flowing through the tubular cylinder ( 26 ) as a function of the piston position in the tubular cylinder ( 26 ) is provided with a closure member ( 24 ). 13. Device according to one of claims 11 and 12, characterized in that the stroke displacement motor ( 40 ) is equipped with a spring ( 30 ) acting on the closure member ( 24 ). 14. Device according to one of claims 10-13, characterized in that the piston ( 27 ) is equipped with an axially through the piston ( 27 ) extending flow channel ( 41 ), the inlet opening ( 46 ) located in the upper piston surface ( 42 ) assigned to the closure member ( 24 ), which is designed as a body covering the inlet opening ( 46 ), that the closure member ( 24 ) is held by means of the spring ( 30 ) in a position raised from the piston surface ( 42 ), in which the flow channel is open ( 41 ) and that the closure member ( 24 ) can be brought into abutment immediately before reaching the upper end position of the piston piston ( 27 ) in the tubular cylinder ( 26 ) with the upper cover ( 9 ) of the tubular cylinder ( 26 ) and upon further movement of the piston in its end position against the force of the spring ( 30 ) is movable into the closed position for the flow channel ( 41 ), and reverses. 15. The apparatus according to claim 10, characterized in that the pump drive is designed as a rotary displacement motor is. 16. The apparatus according to claim 15, characterized in that the rotary displacement motor is a vane motor. 17. The apparatus according to claim 10-16, characterized in that the hydraulic pump driven by the pump drive is designed as a stroke displacement pump ( 39 ). 18. The apparatus according to claim 17, characterized in that a present as a stroke displacement motor ( 40 ) pump drive and a stroke displacement pump ( 39 ) present hydraulic pump have their respective pistons ( 15 , 27 ) common piston rod ( 44 ) and are combined in one structural unit. 19. The apparatus according to claim 18, characterized in that the piston ( 27 , 15 ) of the pump drive and hydraulic pump common piston rod ( 44 ) is designed as a hollow cylinder ( 12 ) and that the reverse osmosis device ( 13 ) is installed in the hollow cylinder ( 12 ) is. 20. Device according to one of claims 10-19, characterized in that the annular space located between the piston rod ( 44 ) formed as a hollow cylinder ( 12 ) of the hydraulic pump and the cylinder wall of the cylinder ( 11 ) of the hydraulic pump, the incoming drinking water flow from bottom to top is cold room flowing through. 21. Device according to one of claims 10-20, characterized in that the inlet of the reverse osmosis device ( 13 ) is connected to the pressure chamber ( 10 ) of the hydraulic pump, which serves in particular as a cooling space. 22. The device according to any one of claims 10-21, characterized in that at an outlet of the reverse osmosis device ( 13 ) a supply channel ( 45 ) is connected, which opens into an area of the pump drive serving the passage of the useful water flow, which area of the useful water flow happens. 23. The device according to claim 22, characterized in that a throttle ( 47 ) is arranged in the supply channel ( 45 ). 24. The device according to claim 23, characterized in that the throttle ( 47 ) is adjustable. 25. Device according to one of claims 10-24, characterized in that a check valve ( 6 ) is inserted into the drinking water flow pipeline ( 4 ) before the introduction of the drinking water flow into the hydraulic pump. 26. Device according to one of claims 10-25, characterized in that at least one filter ( 20 ) is used in a derivation of the permeate. 27. The device according to any one of claims 10-26, characterized characterized in that a permeate collecting and collecting Memory is provided. 28. The apparatus according to claim 27, characterized in that predetermined areas of the wall of the memory are parts of a heat exchanger ( 21 ) and that the heat exchanger can be flowed through by the raw water supplied as a cooling medium. 29. The device according to claim 15, characterized in that the hydraulic pump driven by the rotary displacement motor is designed as a circulating displacement pump. 30. The device according to claim 29, characterized in that that the drive shaft of the circulation pump with the Output shaft of the rotary displacement motor is coupled.   31. Device according to one of claims 29 and 30, characterized in that the circulating displacement pump a Vane pump is.