DE1551559A1 - Distribution system for liquid helium - Google Patents

Description

Liquid Relium Distribution System The invention relates to powerful bund delivery of helium.

In particular, the invention relates to the efficient handling of liquid belium, which is supplied to a customer either in liquid or gaseous form by a single distribution system, in such a way that the losses are as low as possible. Helium is a relatively expensive product. Prüher, when Hellum had to be distributed over relatively long distances, it was transported in a gan-shaped state. The transportation of helium in liquid form «required a complicated and expensive recovery system. However, it is advantageous to transport Selium in liquid form, since larger quantities can be transported per car if the Holinn is in a liquid and not in a granular state. This makes the transport of these rare gases more economical, especially because of this ..that the Plüssickeit'in simple vein can be unshaped in gas and still beuteht the possibility to provide the consumer of.Flüigkeit according to his needs.

Up to now, the difficulties have consisted in finding an efficient distribution system for the halium, in which essentially no losses of selium occur during the handling of the reliums and nevertheless no excessive financial expenditure for complicated devices to ensure a maidmal recovery of the hollums are required . It also ensures that there is no contamination of the holium fluid or the holium gases when a Uaförmmffl occurs.

An object of the invention is therefore the SeIaaftung a Vorteilungssysteme for a liquid containing I Holium transport and / or storage container, which allows "wiedersugewinnen both Holiumflüssigkeit and Holiumgan with a lUnImm in losses in the Kandb ung. Another object of the invention is to provide a simple and efficient system for supplying halium from a tank.

In particular, it is an object of the invention to provide a simple and efficient system which allows either liquid or gant-brown belium to be supplied to a consumer from a mobile source of liquid kelium arranged on a vendor with minimal losses. It has already been established that Belium is a relatively expensive product. The aim in setting up a helium distribution system is always to minimize HoliuaLverlunte when handling. Belium is produced in relatively few places that are relatively widely scattered. It is not uncommon for Hellum to be transported hundreds of miles prior to delivery to the consumer.

The system for supplying Belium described below is used, for example, with a source of liquid holium which is brewed on a cultivator, whereby it is usually a source that has already been used to transport the Hellum to the distribution point. It should be emphasized that the distribution system can be used with stationary tanks with liquid helium as well as with sports enthusiasts. The trailer tank containing the liquid belium can be used, for example, both for transporting the liquid helium and for storing it at the point of distribution.

In the following description, reference is made exclusively to the storage of Beliumfluid with a liquid and a gas phase. Of course, this notation is also intended to include the cases in which the storage in the trailer or the helium storage tank takes place under pressure conditions which result in the helium contained in the tank having a single phase or being in a two-phase state.

The distribution system according to the invention makes it possible to fill liquid from a trailer or storage tank into a customer's liquid storage container which is smaller than this and which is sometimes also called a Dewar vessel. This liquid filling and delivery, which is of particularly great importance for the customer, is generally carried out in the voies shown below.

From the upper part of the liquid holium-containing trailer. or storage tank, gas (or in the case of a single-phase storage tank, holium) is fed to the gas consumer via an evaporator and a compressor. From time to time, liquid is withdrawn from the trailer or storage tank, evaporated into gas and then compressed before delivery to a consumer. The gas produced when the smaller liquid container is filled - during the expansion process - is fed to the nelium supplied by the trailer or storage tank and pressed into containers for we = ea helium gas or storage tanks for other customers. If the pressure in the storage container with liquid llelium falls below a certain pressure limit, then liquid helium is withdrawn from the trailer or tank, effectively pre-vaporized and returned as a gas to the trailer or tank with liquid helium in order to increase the pressure. Further details of the invention are explained below with reference to the drawing, the single figure of which shows the distribution system according to the invention in an ochematic manner.

In the drawing, a holium source is shown at 1, which is referred to below as a tank and consists, for example, of a transportable trailer or a storage device. Liquid helium is supplied from this tsak 1 via a liquid discharge line 3 to smaller containers for consumers. These smaller containers are shown at 2. A second liquid discharge line 4 is used to convey liquid holium from the tank 1 via a helium discharge line 40 to an evaporator 5 (for overheating ). and a compressor 6, and, finally, according to the drawing led to a consumer. a third Ablaseleitung 7 is guided away from the upper part of the helium tank 1 and is connected via the above-mentioned drain line 40 to the evaporator 5 to the compressor 6 and the consumer connection. the Ab -. lass line 7 passes gas (or cold single phase Belium high density, if this is present in the source) from the upper part of the tank 1 for Ablanaleitung 40 and da = to the evaporator via a connecting line 8, the len when Fuel- the fluid cylinder 2 Steam created by expansion to supply the consumer of the waste line 4 (or also fed directly to the discharge line 40).

The pressure in tank 1, for example about 1.21 to 1135 kg / cm2 (3 to 5 psig), ensures that fluid is supplied to fluid cylinder 2 when valve 20 is open. The higher the pressure in the trailer, the more steam is generated during the expansion £; Lr a given transfer of tlilosigam holium from tank 1 to cylinder 2. The compressor 6 is maintained at a supply pressure which is only a few 10 millimeters of wall column above d, gm atmospheric pressure, so that no excessive back pressure is generated in the smaller cylinder 12 volatile holium. No. #. # E "aer Konprensoranaaugdruck ensured jedeob eiae 8icherheit against the ingress of INFT in the system. The Fuel- when len of the cylinder 2 by expansion-resultant vapor is recovered through line 8.

The gas is withdrawn from the tank 1 via a valve 11. The actuation of the valve 14 can take place manually or by means of a pressure switch 21. After opening the valve 11 , the gas is fed from the tank 1 through the line 7 to the feed line 40 and then reaches the consumer via the evaporator 5 and the compressor 6. A second conduit 9 for Abtüllung of gas from the container 1 is intended for use in Noteituationen vorgea- # 2, ia, to ensure that the maximum pressure remains in dm trailer 1 within the prescribed safety limits. The flow through the line 9 can be controlled by a standard safety valve, for example shown at 22, Fg.

If; the steam flow through line 7 and / or line 8 during the supply of liquid to the cylinder 2 is insufficient to learn the compressor suction pressure, a pressure control mechanism 101 is used to monitor the flow in line 40 by means of valves 12-a Effect opening of line 4 to increase the flow. Of course, the valve 12 can also be actuated by UM. The liquid fed in through the valve 12 is compressed in the line or in the evaporator 5 (depending on the type of evaporator, in the compressor to, for example, 210 kg / oi2 (3000 peig) and supplied to the consumer.

Vonn the pressure in the tank 1 under a bestimtel example wines at about 1t21 kg / cm2 (3 psig) lying nin4 "Ifflnze abflillt below which the Dumob-flußaoffl in d" system becomes smaller, do Opens to a pressure control device 14, the pressure conditions so followers fiber "cht, responsive valve 13 (the valve 13 may also handgesteaert no) to at interpreting a part of the Beliu» in'der from Achin erende off led.; ## 4 through, the line 7 again as gas in so that the pressure Ub he the mini & range of f et- 3- Me * Jum 'Evaporated vo. Ven..xli # eip may through the Verve nding the non-illustrated loading iste iv t ". v # nraI ## = of ', r from & forms aein and both- Zit- # U, water evaporator with an electric ethen Ilf-Ä # "tweequelle exist - the compressor 6 ks-rxi. be trained. Preferably will a non-machine that geatgttetl it Compress halium gas from atmospheric pressure to at least 210 kg / OK2 (3000 pols).

Claims (1)

P atentans p r U c he process for the efficient supply of a consumer with helium from a tank, characterized S e -ke is used to mark, that helium is discharged in Gastorm from the tank that is drawn from the tank, liquid helium when the gas supplied is not to satisfy the needs of the consumer it is sufficient that the halium for evaporation and superheating is passed through an evaporator, that the helium is compressed after passing through the pre-evaporator, that the compressed, vaporized and heated helium is passed to the consumer, and that the discharged from the tank in liquid form helium is returned to the tank in gas form "when the pressure in the tank under a pressure minimum limit drops # 2. the method of claim 19 wherein S e k 9 nn -iei o HNET that a small container is filled with liquid helium from the tank, that the Dam #,. # f created during this PlüssigkeitsfÜllung by relaxation is withdrawn and that the by Entsptz , .amg generated steam with the solium grasped and durol #en. Pre-steamer is sent. Vertabren according to claim 2 , characterized by k 9 nn - zei a HNET that the Ilenge of from the tank The liquid belium carried to the evaporator in the Relation to the quantity of the filling at the same time from the tank fed from the tank Steaming, controlled vi:? D. Verfal # hL # ten na "- h claim 3 thereby g 9 k en a - s ei oha 9 t that the minimum pressure limit is about is 1 "2.1 kg / cm2 (3 peig) . ## ör; Lehtung for an efficient supply of helium ; 3 a Taü # "." g c 1,1 c- n, n zeihn 0 t through vaporized and 'I'# zur Verblr-eir #, # - A (2111 : rung vc "ve, Gelic, - elnen, Bed & 2.f ,. Zinrie zir .-- dem # ">, anks mit Verdempf- Sec ,; 2bvchtünser, # 13igke ### llt # zz #, ZL am vc-, 2, el-, r2 to lfjuLte # - # -1j7enko with dc--. -mCli # f OrdnUT-Se-, iz --- e17 E7, # L the gas movement from the tank to the devices carrying the gas, as well as additional valve arrangements which serve to return the fluid removed from the tank in the devices aur conduction of the fluid to the tank again in gaseous form when the pressure in the tank falls below a pressure minimum limit. 6. Apparatus according to claim 5, characterized in that g e k enn -z a i c hne t. that means responsive to the pressure in the tank are provided in order to open the additional valve arrangements when the pressure drops below the pressure level. 7. The device according to claim 6, C oko nn a ei c hnet by devices for dispensing fluid from the tank to a container, devices for tranaporting about the steam generated by depressing the fluid from the fluid dispensing devices and the container to the means that to the evaporation oei = seals. 8. The device according to claim 7, g e k 9 nn a 9 1 c hn o t by additional valves for controlling the amount of liquid that is passed from the boiler to the devices leading to the evaporation and by pressure-responsive devices for actuating the wherein the actuator takes place dependence valve assemblies in the absence of monitoring the ZurUbrung of incurred by flash steam from the small container and the gas leading means. 9. Apparatus according to: claim 5. "Characterized E; 9 k hen -zei o te teeth that are provided on the additional pressure in the tank anäprechende devices which serve for actuation of the first valve assembly 10. The device according to claim 6" hen characterized GEK - ß shows that the minimum pressure limit is about 1.J21 kg / cm2 (3 peig). 11. A method for efficient supply of a consumer with helium from a tank, characterized in that gastörmigen Kolium is fed to from the tank ge -kennz ei o HNET that is supplied from the tank liquid Holiua when the gas supplied is not to Satisfactory = S of the needs sufficient that these helium for Verdenprung and overheating duroh an evaporator is performed such that the Selium is compressed by the Vordamter to the passage that the compressed, vaporized and heated helium is supplied to the Abnebmer "that a container with liquid Kelium of the Tank is filled "that the vapor generated during the Plussigkeitsfüll by mat tension is drawn off and combined with the helium to be passed through the vaporizer and that the amount of liquid Hellum coming from the tank and directed to the vaporizer is controlled as a function of the amount of vapor at the same time 'is deducted when the Püllung fed from the tank container. 12. An apparatus for efficient supply of Holium from a tank, boiled ennzei o HNET by Verclauptunge- and Komprizierungseinrichtungen-, means for connecting the Vordempfungseinrichtungen with the Komprinierungseinrichtungen, means for providing gaseous "Halium from the compressor means to satisfy an Bedertel means for connecting the tank with facilities that lead to the evaporation facilities to Plüssigkeit from the tank to the Verdämpfungseinrichtungen to conduct additional facilities for the tanks with leading to the Vu, -daWfungseinrichtungen means to gas dm tank to the vaporization equipment to leitene = connection Valve arrangements for controlling the gas movement of the df-m tank in the additional facilities, facilities for discharging liquid from the tank to a container, facilities for transferring all of the vapor generated by expansion from the facilities for removing liquid and de m containers for the means leading to the evaporation devices, valve arrangements to control the amount of liquid that is directed from the boiler to the means leading to the evaporation devices, as well as devices which respond to the pressure and are used to operate the valve arrangements, when the pressure in the means leading to the evaporation devices falls below a pressure minimum that can be removed. 13. A method for efficient supply of a consumer with helium from a tank, characterized g e k hen -zei seframe gastörmiges that helium is supplied from the tank that flünsiges Helium is supplied from the Tänk, if the gas discharged not to the needs Betriedigung It is sufficient that the emitted helium is passed through an evaporator for evaporation and overheating, that the holium is compressed after passing through the .Verdempfer that the compressed, evaporated and heated helium is passed to the consumer U that (-ill 2130hälter nit ti flüsoigcm llolilzi from the tank ßofÜllt wiXd that the plushy filling through rmtnpa, .njiunG arises _ steam is withdrawn and that the ser bci the ontotandene steam at least for the Toil for G., # S 13required- is used. Ancestor n ",., Cii AiiGprv (, - li 11, thereby (S a ko nn - z a i c hnet that the pressure in the tank by back Mrung of gaof * 'rmigei-i ReIJ.im in the tank over a Druelmtinir-ltun "-", is kept ronze when the pressure is in the Consistently the minimum pressure limit falls.