DE2032886A1 - Device for transferring liquid - Google Patents

Description

PARKÄR-HANNIFIN CORPORATION
17325 Euclid Avenue
Cleveland, Ohio, USA

Munich, July 2, 1970 Our reference 21,778

Device for transferring liquid

The invention relates to a device for transferring Liquid.

Oxygen breathing devices for plug stuffs often exist from several oxygen cylinders or cylinders in which the oxygen under high pressure, in general 130 to 155 kg / cm is stored, bringing the known dangers when refilling the bottles are present, and these require special care and handling and handling at the ground station, which is costly to aircraft operators.

Aircraft have previously been equipped with liquid oxygen breathing devices equipped in which the oxygen is stored at a temperature above the boiling point Atmospheric pressure. In known liquid oxygen devices however, there are considerable evaporation losses associated with refilling the aircraft oxygen dewars, the risk of fire and, ultimately, refilling ground supplies was cumbersome and time consuming.

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Plug tools are also equipped with liquid nitrogen inert systems to prevent and extinguish fires. With respect to a method for periodically replenishing liquid nitrogen dewar in an aircraft with minimal losses, reference is made to the German patent application 20 20 542.9. The device described there is characterized in that only a single fluid connection is established between the supply container containing the liquid nitrogen and the aircraft nitrogen dewar without the latter being vented, so that the filling process can be carried out without gas or liquid loss due to evaporation or overflow can.

According to the invention a device for refilling a Aircraft dewars are created with a volatile liquid intended for consumption in a gaseous state, which is labeled is through two storage dewars, ie, with each other are in flow communication and contain the liquid at different temperatures during operation, with the vapor pressure of the warmer liquid keeps the dewar filled with the colder liquid, a delivery line through which Under the influence of the vapor pressure, it was possible to dispense the liquid from the storage dewars into the aircraft dewars is, and a Misclaentil to that of the corresponding Speicherdewars meter incoming liquid flow in such a way that the liquid is at a desired temperature between the temperatures of the liquid in the storage hearth is released.

When filling the bottom feeder, which has a filling device, a saturation control device, a storage device and a dispensing device, flows the. initial steam (e.g. oxygen) flowing into the filling device through a humidifier

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Trap and filtering device to remove any moisture that may be present and '* flows through a steam discharge device into the lower Ambient pressure. When the fluid has cooled the lines sufficiently so that a flow of liquid is possible, the circuit ends the Exhaust gas flow and directs the incoming liquid flow from the filling device into the saturation control device. .

In the saturation control device, the temperature becomes the inflowing liquid is stabilized at a predetermined value above the normal boiling temperature. The incoming Liquid is dispensed from there into a storage container, with the incoming fluid flow in part is deflected by a temperature control circuit so that it flows through a saturation pressure heat exchanger and is mixed again in the storage container with the other inflowing liquid.

After that, the storage container is in the storage device filled without thermal loss, with the cold incoming liquid through a spray device in the upper Part of the storage tank is introduced and the saturated liquid in the lower part of the same tank

is initiated. The mixing effect resulting from these two currents creates a common ' Pressure in the vapor space of the container. The liquid s <quantity any flow entering the vessel will regulated by a pressure regulator that is set so that the desired saturation value is maintained at the required working conditions. The container has two Dewars on, one of which is from the liquid nitrogen storage dewar is thermally insulated and the other in thermally

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see equilibrium with the liquid nitrogen storage tank as a result of which the liquid oxygen it contains is supercooled to nitrogen temperature. The two dewars are in fluid communication with each other, so that the supercooled dewar is kept full by transferring liquid from the saturated dewar.

Finally, the dispensing device is arranged so that, when connected to the aircraft dewar, the residual fluid in the latter can be depressurized so that the lines are precooled in the dispenser. The steam then enters the discharge device. Then the thermal sensor switches the dispensing device from the «pre-cooling» position to the «filling» position, whereupon the liquid from the two dewars is mixed to give the aircraft dewar liquid at a desired saturation level to feed. A level sensor in the aircraft dewar then switches off the dispensing device. Condensed when uncoupling in turn, the residual fluid in the storage device.

Am embodiment of the device according to the invention is described with reference to the accompanying drawings. Show it:

Fig. 1 is a schematic representation of the device and

Fig. 2 is a more detailed, sehematisehe Dar-. position the facility «

As shown in FIGS. 1 and 2 , the "floor feed device 1 (which" will generally be arranged on a trailer) has as sub-units a filing device 2, a saturation control gate 3. » a storage device 4 and a dispensing device 5 ,

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The filling device 2 has a coupling 6 that can be uncoupled, a filling shut-off valve 7, one as a moisture trap and Filter-acting device 8, a fill-vent valve 9, a flow control valve 10, a temperature sensor 11,

a device 12 for discharging the steam, relief valves 13 and lines 14 and 15.

The saturation control device 3 has lines 16, 17, 18 and 19, a mixing valve 20, a spray device 21, a pressure regulator 22, a differential pressure valve 23 for the liquid level and a heat exchanger 24.

The storage device 4 has a storage container 25 for saturated liquid oxygen, a storage container 26 for supercooled liquid oxygen, a nitrogen dispenser 27, a countercurrent line 28, a storage tank 29 for liquid nitrogen, a heat exchanger 30, a pressure regulator 3 $, a relief valve 32, a shut-off vent valve 33 and lines 34 and 35. The oxygen tank 25 is thermally different from the nitrogen tank 29 is insulated, and the oxygen tank 26 is in direct thermal contact with the nitrogen tank 29.

Finally, the dispensing device has 5 dispensing lines 36, 37 and 38, a mixing valve 39, a shut-off valve 40, a fluid control valve 41 for venting Relief valve 42, which leads to the steam discharge device 12, a flexible discharge line 43, a self-sealing, uncoupling coupling 44, a pressure regulator 45, temperature sensor 46 and 47 and a temperature controller 48.

In the facility are further control circuits 49 and 50, one electrical disconnection line 51 and a decoupling electrical Coupling 52 is provided.

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The aircraft 53 contains an aircraft dewar 54 with a filling line 55 which is connected to a coupling 56 that can be uncoupled is connected to the feed device 1 via the coupling 44 in use.

Usually the delivery of oxygen runs from the Feed device 1 in the aircraft dewar 54 in the following way: The couplings 44 and 56 are joined together, so that the fluid can be passed over, and the couplings 57 and 52 are mated to allow through a level sensor 58 the shutdown control for the liquid level can be operated. The pressure in the plug stuff was 54 is connected to a control valve via lines 43 and 37 41 for the discharge flow and enters the discharge device 12 via the line 38 and the relief valve 42 off. This pre-cools the dispensing line so that volatile liquid is removed from the feed device 1 in the plug stuff dewar 54 can flow.

When the temperature sensed by the temperature sensor 47 reaches the predetermined value, the control valve 41 becomes closed and the shut-off valve 40 opened. Liquid oxygen flows from the container 25 through the line 19 to the mixing valve 39. The amount of liquid oxygen, which at the same time flows from the supercooled container 26 through the line 36 to the mixing valve 39, is through the temperature controller 48 is controlled as a function of the temperature sensor 46. The mixed liquid oxygen will through the pre-cooled lines 37, 43 and 55 in the plug stuff dewar 54 and is passed through the spray device 59 sprayed into the steam space of the plug-in stuffing device 54 in order to keep the pressure in this space at the desired value. When the liquid level reaches the desired level, the level sensor 58, which is connected to the control unit 50 is connected via the couplings 57 and 52 that

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the control unit.50 ends the filling process. The shut-off valve 40 is closed and the operator is in control disengages the clutch 44. The pressure regulator 45 opens the control valve 41 for the venting flow and the pressure in lines 43 and 37 is vented through line 38 and relief valve 42 into discharge device 12.

Dewar was used to deliver liquid oxygen in eiqr aircraft 54, which does not contain any residual liquid, is connected to the vent line 60 by a flexible one Line 61 and a coupling 62 which can be disengaged on the feed device 1 are established. This enables that liquid oxygen from the feed device T in the aircraft dewar 54 flows. As soon as the residual heat in the Lines 37, 43 and 55 and in the aircraft dewar 54 through the liquid flowing in from containers 25 and 26 If oxygen is removed, the coupling 62 is disconnected and the filling process goes like the normal one described above Filling process continue »

The floor feed device 1 is supplied as follows. First, liquid oxygen is drawn from a Hachechubqueile (not shown) supplied via the coupling 6, and the Control unit 49 is set to "fill". Through this the filling-Abaperrventil 7 and the Ftill vent valve 9 open. (Jas flows through from the feed source the line 14 and the relief valves 13 in the discharge device 12, whereby it removes the residual moisture in the filling device as it passes through it. When the fluid temperature is up the predetermined value of the temperature sensor 11 drops, the control valve 10 is opened and the filling / venting valve 9 is closed. Liquid oxygen now passes through lines 15 and 17 and the spray device

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into the container 25. The pressure regulator 22 monitors the pressure in the vapor space in the container 25. If the pressure is less than the set value, the mixing valve 20 is opened and liquid oxygen passes through the line 16 and the heat exchanger 24 via the lines 18 and 19 into the container 25 a. This warmer liquid mixes with the liquid already present in the container 25 and thereby increases the temperature and the pressure in the container 25. Simultaneously with the increase in flow through the line 19, the flow through the line 17 decreases, since the total available pressure, the results from these two currents; ^ becomes smaller. ^v :

Since the oxygen tank 25 is thermally different from the nitrogen tank 29 is insulated, a high pressure can be maintained. Since the container 26, however, in direct is in thermal contact with the nitrogen tank 29, it is cooled to this temperature and the steam in the tank 26 is below that applied by the container 25 Condense pressure. In this way, liquid flows in cascades from the container 25 into the container 26, whereby this is completely filled. When the liquid reaches the level predetermined by the pressure sensor 23, the control unit 49 terminates the filling process and the coupling 6 can be uncoupled. The best pressure in the line 15 is vented into the discharge device 12.

The desired saturation pressure in the container 25 is determined by the heat exchanger. 30 maintained. The liquid passing from container 25 through line 34 is controlled by pressure regulator 31 , the heated fluid entering the top of container 25 through line 35 and mixing with the liquid therein to reduce the low heat loss from the

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Equalize container 25 in the nitrogen container 29. This is used to supply the fuel tank with an inert agent and for other purposes.

The amount of liquid oxygen entering the container 25 from each line 17 and 18 is determined by the pressure regulator 22 regulated, which is set so that the desired saturation level is maintained. The oxygen tank 25 is thermally separated from the stick * material container 29 insulated, so that the speed the heat transfer from the oxygen to the nitrogen with the permissible heating rate for the liquid Nitrogen is consistent.

The oxygen tank 25 is physically separated from the nitrogen tank 29 to eliminate the possibility of that oxygen and nitrogen mix. The second ee container 26 with smaller capacity is in direct thermal Contact and therefore in thermal equilibrium with the nitrogen container 29. This container 26 is again physically separated from the nitrogen tank 29 to prevent oxygen and nitrogen from mixing. The container 26 is oxygenated by the Container 25 is kept full via line 28. The warmer one Oxygen, which is passed over to replace consumption, is brought to the temperature of liquid nitrogen cooled down. The pressure in the vapor space of the container 25 acts on the liquid in both containers 25 and 26. The reason for that, two containers 25 and 26 are provided is to provide thermal compensation while the liquid is being dispensed into the aircraft dewar 54 create. Since the thermal operating energy and the corresponding pressure level values between the oxygen and are not equal to nitrogen is a pressure equalization

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circle provided to maintain the desired level values, necessary for the conversion and the loss of heat from the oxygen to the nitrogen balance.

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Claims (11)

Expectations Device for refilling a vehicle dewar with a volatile, for consumption in gaseous state certain liquid, characterized by two storage dewars (25 »26), which are in flow connection with each other and in operation the liquid under different Temperatures included, the vapor pressure of the warmer liquid being the dewar (26) with the colder The liquid is filled with a discharge line (43) through which the discharge of the Liquid from the storage dewars in the aircraft dewar (54) is possible, and a mixing valve (39) ι around the from the liquid flow coming to the corresponding storage dewars in such a way that the liquid is at a desired temperature between the temperatures the liquid is released into the storage dewars 2. Device according to claim 1, characterized in that the delivery line (43) has a Temperatursensorvorrichr contains device (46) which controls the mixing valve (39). 3. Device according to claim 1 or 2, characterized in that the delivery line (43) has a control valve (41) ■ m for the vent flow that is in open Condition in the discharge line allows a return flow of steam from the aircraft dewar (54) to the discharge line to pre-cool. 4 * Device according to claim 3, characterized by a vent line (6O) 9 which can be connected to the vapor space of the aircraft dewar (54), wherein, if no residual liquid is contained in the aircraft dewar, the _{vent line 9 can be connected to the aircraft dewar} OG9886 / 2032985 Delivery line (43) into the aircraft dewar flowing Liquid pre-cools the delivery line. 5. Device for refilling an aircraft dewar with a volatile one, for consumption in a gaseous state certain liquid, in particular according to claim 1, characterized by a filling device (2) with ei ~ nem inlet (6) for connection to a liquid supply source and with an outlet, through a saturation control device (3) which eats connected to the outlet and has a heat exchanger (24), which is intended for heating the liquid, a storage device (4) with a storage dewar. (21,25) for receiving the liquid from the saturation control device and through a dispensing device (5) with a delivery line (43) through which a delivery of liquid from the storage device to the aircraft device «Is possible. 6. Device according to claim 5, characterized in that the filling device (2) has a flow control valve (10) at the outlet, a vent valve (9) upstream of the flow control valve through which the liquid coming from the Kachadiubquelle flows, nm to precool the filling device while the flow control valve is closed, and has a control unit (49) which contains a temperature sensor (11) which opens the flow control valve and closes the vent valve when the filling device is precooled to a certain temperature. 7. Device according to claim 6, characterized in that the filling device (2) one as moisture @ fal3L @ and Filter-acting device (8) contains the-upstream of the valves (9,10) lies. 8. Device according to one of claims 5 _r 6 or 7 »characterized in that the saturation control device (3) has a first line (1?) With a spray device (21), which the liquid coming from the filling device in the vapor space of the storage dewars (25), and a second conduit (16,19) containing a heat exchanger (24) and a temperature responsive valve (20) which leads heated liquid into the Speioherdewar to bring the vapor pressure in the latter to a predetermined To increase value. 9. Device according to claim 8, characterized daduroh, that a second heat exchanger (30) and a pressure » controller (31) coming from the storage container (25). de heat the liquid and pour it into the vapor space of the Return the storage container to make the storage device older for dispensing liquid to the dispensing device (5) to be pressurized in a predetermined manner. 10. Device according to one of claims 5 to 9, daduroh characterized in that the storage device (4) has a first and a second storage device (25) 26) ent- » holds that are in flow connection with each other and in use the liquid will contain below vas chi e those temperatures, the vapor pressure being the warmer Liquid the dewar (26) with the colder liquid keeps filled, and that a mixing valve (39) in the dispensing device (5) the fluid flow from the corresponding Speioherdewar sumieat to liquid at a desired temperature, which between the temperatures of the liquid in the storage dewam is to deliver to the Abgabelel-exercise (42). 009886 / U60 11. Device according to claim 10, characterized in that that the storage device. (4) was a third storage hearth (29) which contains a different liquid which is at a lower temperature than the liquid in the first and second reservoirs (25,26) from the saturation control device (3) is received, the first memory dewar (26) in direct thermal contact with the third memory dewar stands so that the liquid contained therein is supercooled is, and the second memory dewar (25) thermally from the third storage dewar is insulated, whereby the prevailing vapor pressure in it fills the first storage dewar holds v 009886/1460