DE2352147A1 - Closed cycle for supplying cryostat with low b. pt. liquefied gas - has cryostat directly downstream of refrigerator and storage vessel for liquefied gas downstream of cryostat - Google Patents

Abstract

System for supplying liquefied gas to the cryostat is suitable for supplying a superconducting magnetic system which is placed within the cryostat with liquid helium. The cold liquid and vapour mixture generated in the refrigerator flows under the pressure directly to the cryostat. The liquid is accumulated into the cryostat and vapour as well as liquid evaporated within the cryostat is delivered directly into the storage vessel and flows from there to the inlet of the refrigerator. As soon as the liquid level in the cryostat reaches the connection line to the storage vessel, the excess liquefied gas flows also into the storage vessel and is collected there. If necessary, excess liquid gas can be removed from the storage vessel for other purposes. Provided the refrigerant production of the refrigerator is equal to or greater than the refrigerant consumption of the cryostat the whole system is self regulating.

Description

LINDE AKTIENGESELLSCHAFT

^{(H 671)} H 73/76

Sm'Kr 16.10 »1975

Device for supplying a cryostat

The invention relates to a device for supplying a cryostat with a low-boiling liquid gas by means of an in a liquid gas circuit in which a refrigerator, a storage container and a cryostat are switched on, generated delivery pressure.

It is known a cryostat with liquid gas from a storage tank which _s is a refrigerator in conjunction to provide ^. In normal operation, the liquid vapor mixture generated by the refrigerator first flows under pressure into the storage container, in which the liquid collects χ, while the vapor flows through a

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controllable throttle point flows back directly to the refrigerator. Due to a pressure difference generated by throttling, the liquid that has accumulated in the storage container arrives now via a line that is equipped with a regulating valve, the liquid flow as a function of the liquid level regulates in the cryostat, is provided in the cryostat. The refrigerant evaporated in the cryostat flows directly to the Refrigerator back. The differential pressure required to convey the liquid from the storage tank to the cryostat becomes Via a differential pressure regulator, which can be controlled with the throttle point communicates, regulated.

The disadvantage of this known supply system lies in the large amount of control work involved in normal operation is necessary to ensure an effective supply of refrigerant to the cryostat and the associated risk a fault in the refrigerant supply to the cryostat, which can be of great negative importance in particular when a larger object, for example a Supramagnet, should be cooled.

The invention is based on the object of a supply system for a cryostat with a low-boiling Developing fluids with maximum operational safety is easy to operate.

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This object is achieved in that in the direction of flow of the liquid circuit, the cryostat is located directly behind the refrigerator and the storage container is located directly behind the refrigerator Cryostat is connected downstream.

This device according to the invention enables a simple way of supplying a cryostat with a low-boiling liquid gas with maximum operational reliability. That cold liquid-vapor mixture generated in the refrigerator flows here under the delivery pressure directly to the cryostat. This is where the liquid collects, while the vapor as well Liquid evaporated within the cryostat via a line which opens in the upper area of the cryostat, directly to the reservoir and only from there to the inlet "of the refrigerator. As soon as the liquid level is in the Cryostats the mouth of the connection line to the storage container has reached, liquid gas now also flows into the storage tank to collect excess there Liquid can optionally be removed from the reservoir for other use.

Overall, it is therefore necessary in the case of the invention Device, despite the maximum supply of refrigerant to the cryostat, no control or regulating elements whatsoever within the liquid gas circuit. The refrigerant supply within the cryostat

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practically regulates itself, provided the refrigerant production of the refrigerator is just as large or greater than the refrigerant consumption of the cryostat. These However, the condition is easy to implement. The device according to the invention is therefore advantageously suitable, for example to supply a supramagnet, which located inside the cryostat, with liquid helium.

The device according to the invention is advantageous Shut-off elements arranged in the liquid gas circuit, a first in front of the cryostat, a second in front of the Storage container in the supply line and a third is provided after the storage container in the discharge line.

Because, according to further embodiments of the device according to the invention, the storage container is connected to both the cryostat and a pressurized gas container via lockable auxiliary lines, any reduced refrigerant production by the refrigerator or an increased refrigerant requirement of the cryostat can also be countered in a simple manner. In such a case, an overpressure is generated in the storage container relative to the cryostat by means of the connected pressurized gas container, so that low-boiling liquid can now be conveyed from the storage container to the cryostat via the additional line. The storage container is also advantageous here

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with regard to the return of the accumulating in the cryostat Vapor and vaporized liquid bridged, whereby the Steam and the evaporated liquid are now passed directly from the cryostat to the refrigerator «This is the latter is provided according to the invention by a valve with a shut-off device Line reached that the supply line of the cryostat to the storage container and the discharge line of the storage container connects to the refrigerator.

This additional possibility of supplying refrigerant to the cryostat with reduced performance of the refrigerator or with increased refrigerant requirement of the cryostat can be easily automated in a further embodiment of the device according to the invention by having both the shut-off element in the additional line from the storage container to the cryostat and the shut-off element between the storage container and Pressurized gas container, which can be a solenoid valve, can be controllably connected to a liquid level indicator provided in the cryostat. Moreover, that between the reservoir and the shut-off Refrigerator according to the invention also in the line between the reservoir and cryostat "and that of the bypass line can be controlled to the liquid level indicator are connected.

Further explanations of the arrangement according to the invention can be found in the figure, in which a special embodiment example is shown schematically. is shown.

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According to this exemplary embodiment, a mixture flows from liquid and vaporous helium from a refrigerator I under pressure via lines 2 and 3 and the open ones Valves 26 and 4 in a cryostat 5 * in which, for example a supramagnet 5a to be cooled is located. Inside the cryostat 5, the liquid is deposited while Steam and evaporated liquid and, after the cryostat 5 has been filled, also liquid via lines 6 and 7 and an open valve 8 flows to the reservoir 9. In the reservoir 9, the liquid collects while the steam is fed to the inlet of the refrigerator I via the lines 10 and 11 and the open valves 12 and 25 will. All other valves not mentioned so far are closed in this case.

The circuit described corresponds to the normal operation of the device shown for supplying a Liquid helium cryostats. It turns out that no control effort whatsoever has to be carried out in order to achieve a sufficient Ensure refrigerant supply to the cryostat. Of the achievable liquid level within the cryostat depends solely on the position of the end point of the line 6 within the cryostat, which is practically an overflow pipe represents. Superfluous refrigerant can be drawn off from the storage container 9 via line 22 and the valve 2j5.

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In the case of reduced refrigerant production by the refrigerator 1 or increased refrigerant consumption of the cryostat 5 can by a simple circuit of the Storage supply of the storage container 9 for additional cooling can be used. For this purpose, the control valve 14 in the auxiliary line 15, the solenoid valve 13 in the auxiliary line 1β between the storage container 9 and a pressurized gas container 17 and the valve 18 in the bypass line 19 is opened. The valves 8 and 12 are closed. Through the open Solenoid valve IJ, helium gas flows into the storage container 9 and additionally presses stored liquid helium via the auxiliary line 15 into the supply line J5 of the cryostat 5 In this case, the solenoid valve IJ is activated via a pressure switch 20 controlled so that the differential pressure required to promote the liquid helium between reservoir 9 and Cryostat 5 is set. Refrigerant evaporated in the cryostat 5 now flows directly via the lines 6, 19 and 11 back to refrigerator I.

This in the event of a fault in the refrigerator I. or in the event of increased refrigerant consumption The circuit provided for the cryostat 5 can be easily automated by adding a circuit provided on the cryostat 5 Liquid level indicator 21 with the barriers 21a, 21b and 21c controllable with the valves 8, 12 and 18 on the one hand and

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IJ and 14 on the other hand is connected. The controls are with Advantage carried out so that as soon as the liquid level within the cryostat 5 falls below the barrier 21 a, of Normal operation is switched to fault operation by the Liquid level indicator 21 commands valve 18 to open, and at the same time valves 8 and 12 Gives orders to close. The valves 13 and 14 are opened by command of barrier 21c and closed again by command of barrier 21b. The pressure within the Delivery line 15 is controlled via pressure switch 20. As soon as the liquid level inside the cryostat. 5 the exceeds the upper visual line 21a of the liquid level indicator 21, is automatically switched back to normal operation.

If the refrigerator 1 has to be temporarily separated from the system, which in the case of a repair of the Refrigerators 1 might be necessary, is also a temporal one limited supply of the cryostat 5 solely from the storage container 9 possible. The valves 25 and 26 are closed in this case. The liquid refrigerant flows out of the storage tank 9 with the valve 14 open via the supply line 3 to the cryostat 5. The one to overflow the liquid The differential pressure required for refrigerant between the reservoir 9 and the cryostat 5 is on the one hand in this circuit

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generated by the fact that, as before, the storage container 5 is connected to the compressed gas container 17 via the auxiliary line 16 and the solenoid valve IJ, but on the other hand the cryostat is kept at a constant pressure that is lower than that of the storage container 9 'that this is achieved through the line pieces 6, 19 and 11 gaseous refrigerants flowing 1 ° with the valve open by opening a valve 2'C via e: .ne line 27 can either escape to the outside or collect in a gasometer 29. Apart from the valves 25 and 26, the valves 4 _S 8, 12 The automatic control of the liquid level in the cryostat 5 can be carried out in a completely analogous manner to the case in which the refrigerant consumption of the cryostat 5 increases or the refrigerator I is disturbed.

A Betr.ieb of the refrigerator 1 in the reservoir 9 alone can SiOH also perform "Such a circuit is necessary ^ if the reservoir 9, Gobo fflit safety reasons, before using the cryostat 5 a supply are ausgostafefcdt of liquid refrigerant sollo this purpose on the line 2 in g © opens © m valve 26 and üb © r © in © line 24 by opening a valve 4a of the hopper 9 directly with liquid refrigerant from the refrigerator 1 supplies _e "during the YQ%>T> IAE tBfa®hM , lt®%> 9 v © x »aarapfonä © e cold © siitt © i via di® line to © ig @ öffn © t © M ¥ © nfeil 12 and di © line 11 b @ i open

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Valve 25 flows back into the refrigerator I.

When the cryostat 5 is cold, it will be like supplied directly with cold refrigerant from the refrigerator 1 during normal operation. The refrigerant heated in the cryostat 5 In this case, however, it flows back directly to the refrigerator I. For this purpose, the valves 26, 4, IC, 25 are open, the Valves 8, 12, 4a, 14, which are in the lines to the storage container, are closed.

Overall, the arrangement according to the invention enables according to this exemplary embodiment thus an advantageous and reliable supply of a cryostat with liquid helium. The ratios within the cryostat are also not affected by faults in the refrigerator, what is of great importance especially when 2.B. Inside the cryostat there is a supramagnet * whose operation is a requires constant cooling.

ir.

This type of refrigerant supply according to the invention can of course also be used on several cryostats connected in series. Furthermore, the possibility Anstell © sines Refrigerators feesteht a storage tank to use and tilaarwiegend liquid refrigerant through the intermediary fuispe promote.

1 sheet of drawings

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Claims (7)

LSNDE AKTSENGESELLSAGHAFT " ⁿ " H 73/76 Sm / Kr (H 67I) October 16, 1973 Claims VlJ device for supplying a cryostat with a low-boiling one Liquid gas by means of a in a circuit in which a refrigerator and a storage tank a cryostat are switched on, generated delivery pressure, characterized in that in the direction of flow of the liquid gas circuit the cryostat (5) is located directly behind the refrigerator (1) and the storage container (9) is the cryostat (5) is downstream. 2. Device naoh claim 1, characterized in that in the liquid gas circuit shut-off devices are arranged, wherein a first (4) in the direction of flow of the liquid gas circuit in front of the cryostat (5) * eia second (8) in front of the storage container (9) and a third (12) is arranged behind the storage container (9}. Device according to claim 2, characterized in that the storage container (9) is connected to both the cryostat (5) and a pressurized gas container ¹ (17) via lockable (15, 14) auxiliary lines (15 * 1). 5O9Ö17 / 0160 LINDE AKTIENGESELLSCHAFT 4. Apparatus according to claim 2 or 3, characterized in that daii the storage container (9) via another with a bypass line (19) provided with a shut-off scan (1 "), which connects the lines (6, 11) between the storage container (9) and the cryostat (5) or refrigerator (1), is bridged. 5. Apparatus according to claim 2 or 4, characterized in that the shut-off element (14) in the additional auxiliary line ( between the storage container (9) and the cryostat (5) j controllable with a liquid level indicator arranged on the cryostat (5) (21) is in connection. ^; 6. Device according ce features according to one of claims 3 to 5, "that the obturator (13) in the auxiliary line (16) is a solenoid valve between the reservoir (9) and the compressed gas container (17) via a pressure switch (20) is controllably connected to the liquid level indicator (21) on the cryostat (5). 7. Device according to one of claims 4 to 6, characterized in that dab both the second (8) and third (12) shut-off device in front of and behind the reservoir (9) as also the shut-off element (18) in the bypass line (19) are controllably connected to the liquid level indicator (21). 5 0 9 8 17/0160