Method for the refrigerated transportation of a stock in a vehicle implementing a liquid combustible gas tank and a liquid nitrogen tank
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60H-001/32
F17C-006/00
F17C-009/00
출원번호
US-0697945
(2011-04-22)
등록번호
US-9186958
(2015-11-17)
우선권정보
DE-10 2010 020 476 (2010-05-14)
국제출원번호
PCT/EP2011/056489
(2011-04-22)
§371/§102 date
20121114
(20121114)
국제공개번호
WO2011/141286
(2011-11-17)
발명자
/ 주소
Lurken, Franz
Henrich, Helmut
출원인 / 주소
L'Air Liquide Société Anonyme Pour L'Étude Et L'Exploitation Des Procedes Georges Claude
대리인 / 주소
Cronin, Christopher J.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
The present invention relates to a supply station jointly storing a low-temperature-liquefied combustible gas, in particular natural gas, and liquid nitrogen and designed for supplying each component separately or jointly as needed to a vehicle, the supply station being present on the vehicle, the s
The present invention relates to a supply station jointly storing a low-temperature-liquefied combustible gas, in particular natural gas, and liquid nitrogen and designed for supplying each component separately or jointly as needed to a vehicle, the supply station being present on the vehicle, the station comprising at least a first storage tank for storing said liquefied combustible gas; and at least a second storage tank for storing said liquid nitrogen and at least one heat-transmitting connection element between the at least one first storage tank and the at least one second storage tank, which connection element is designed so that the combustible gas can be cooled, or can be maintained at a temperature below its boiling point, directly or indirectly by the liquid nitrogen.
대표청구항▼
1. A refrigeration vehicle comprising: a refrigeration space for the transport of a frozen or chilled stock;an engine driven by a liquefied combustible gas;a supply station including: at least one first storage tank for storing the liquefied combustible gas;at least one second storage tank for stori
1. A refrigeration vehicle comprising: a refrigeration space for the transport of a frozen or chilled stock;an engine driven by a liquefied combustible gas;a supply station including: at least one first storage tank for storing the liquefied combustible gas;at least one second storage tank for storing a liquid nitrogen; andat least one heat-transmitting connection element, between the at least one first storage tank and the at least one second storage tank, adapted and configured to cool or maintain the liquefied combustible gas at a temperature below a boiling point of the liquefied combustible gas, directly or indirectly by the liquid nitrogen;a refrigeration unit linked to the refrigeration space for cooling the refrigeration space, a first refrigeration space cooler and a second refrigeration space cooler being disposed within the refrigeration unit;an evaporator fluidly communicating between the engine and said at least one first storage tank and being adapted and configured to vaporize the liquefied combustible gas to provide the combustible gas to the engine;a heat exchange loop containing a heat transfer medium circulating therethrough by a heat transfer medium pump, the second refrigeration space cooler forming part of the heat exchange loop within the refrigeration space;a heat exchange loop heat exchanger forming part of the heat exchange loop and coupling to the evaporator to exchange heat with the evaporator for vaporization of the liquefied combustible gas;a liquefied combustible gas pump fluidly communicating between said at least one first storage tank and the evaporator; anda nitrogen pump fluidly communicating between the first refrigeration space cooler and said at least one second storage tank and being adapted and configured to pump liquid nitrogen from said at least one second storage tank to the first refrigeration space cooler,wherein heat of the refrigeration space is extracted via one or both of the first refrigeration space cooler and the second refrigeration space cooler. 2. The refrigeration vehicle of claim 1, wherein the liquefied combustible gas is natural gas. 3. The refrigeration vehicle of claim 1, wherein the second storage tank is arranged in the first storage tank. 4. The refrigeration vehicle of claim 1, wherein the first storage tank and the second storage tank are arranged in a common insulating jacket. 5. The refrigeration vehicle of claim 1, wherein the at least first storage tank and the at least second storage tank are connected by a heat-transmitting connection element. 6. The refrigeration vehicle of claim 5, wherein the heat-transmitting connection element has at least one heat exchanger. 7. The refrigeration vehicle of claim 1, wherein the evaporator is placed at an end of the refrigeration unit away from the refrigeration space. 8. A method for the refrigerated transportation of a frozen or chilled stock in a vehicle having: a refrigeration space for the transport of said stock,a supply station for storing a liquefied combustible gas in at least one first storage tank and liquid nitrogen in at least one second storage tank, respectively,a refrigeration unit linked to the refrigeration space for cooling the refrigeration space, a first refrigeration space cooler and a second refrigeration space cooler being disposed within the refrigeration unit,an engine driven by a combustible gas,an evaporator fluidly communicating between the engine and said at least one first storage tank and being adapted and configured to vaporize the liquefied combustible gas to provide the combustible gas to the engine,a heat exchange loop containing a heat transfer medium circulating therethrough by a heat transfer medium pump, the second refrigeration space cooler forming part of the heat exchange loop within the refrigeration space,a heat exchange loop heat exchanger forming part of the heat exchange loop and coupling to the evaporator to exchange heat with the evaporator for vaporization of the liquefied combustible gas;a liquefied combustible as pump fluidly communicating between said at least one first storage tank and the evaporator, anda nitrogen pump fluidly communicating between the first refrigeration space cooler and said at least one second storage rank and being adapted and configured to pump liquid nitrogen from said at least one second storage tank to the first refrigerated space cooler, said method comprising the steps of: when needed, cooling the liquefied combustible gas, or maintaining a temperature of the liquefied combustible gas below a boiling point of the liquefied combustible gas, directly or indirectly by the liquid nitrogen; andwithdrawing heat from the refrigerated space by one or both of the first refrigeration space cooler and the second refrigeration space cooler, wherein: heat is withdrawn from the refrigeration space by the first refrigeration space cooler by pumping the liquid nitrogen with the nitrogen pump to the first refrigeration space cooler and exchanging heat, via the first refrigeration space cooler, between the pumped liquid nitrogen and an ambient atmosphere within the refrigeration space to vaporize the pumped liquid nitrogen, a heat of vaporization of the pumped liquid nitrogen coming from all or a portion of the heat withdrawn from the refrigeration space by the first refrigeration space cooler, andheat is withdrawn from the refrigeration space by the second refrigeration space cooler by pumping the liquefied combustible gas from said at least one first storage tank in the supply station to the evaporator in the refrigeration unit by the liquefied combustible gas pump, circulating the heat transfer medium through the heat exchange loop with the heat transfer medium pump, and exchanging heat, via the heat exchanging loop heat exchanger and the evaporator, between the heat transfer medium and the liquefied combustible gas so as to vaporize the liquefied combustible gas for driving the engine, a heat of vaporization of the liquefied combustible gas coming from all or a portion of the heat withdrawn from the refrigeration space by the second refrigeration space cooler. 9. The method of claim 8, further comprising the step of: regulating heat extracted by the liquefied combustible gas. 10. The method of claim 8, further comprising the step of: transmitting heat from the liquefied combustible gas to the liquid nitrogen via at least one heat exchanger in the supply station. 11. The method of claim 8, further comprising the steps of: supplying the combustible gas to the engine; andextracting heat required for the vaporization of the liquefied combustible gas from the refrigeration space. 12. The method of claim 11, wherein the step of extracting the heat required for the vaporization of the liquefied combustible gas includes the step of extracting the heat required for the vaporization of the liquefied combustible gas from the refrigeration space via the heat exchange loop. 13. The method of claim 8, further comprising the step of supplying the liquid nitrogen from the at least one second storage tank or from a third storage tank to the second refrigeration space cooler for cooling the refrigeration space. 14. The method of claim 8, further comprising the steps of when the engine is in operation: extracting the liquefied combustible gas from the at least one first storage tank in liquid phase;evaporating the liquefied combustible gas;employing heat of evaporation for cooling the refrigeration space; andemploying the liquid nitrogen for cooling the refrigeration space as necessary. 15. The method of claim 8, further comprising steps of when the engine is not in operation: employing the liquid nitrogen as necessary to cool the liquefied combustible gas or to maintain the liquefied combustible gas below the boiling point of the liquefied combustible gas; andemploying the liquid nitrogen and/or the liquefied combustible gas for cooling the refrigeration space as necessary. 16. The method of claim 8, wherein the liquefied combustible gas is natural gas. 17. A method for equipping a vehicle for the refrigerated transportation of a frozen or chilled stock in the vehicle having a refrigeration space for the transport of said stock and an engine driven by a combustible gas, the method comprising the step of providing the vehicle with: a supply station comprising at least one first storage tank adapted and configured to store a liquefied combustible gas, at least one second storage tank adapted and configured to store liquid nitrogen, and a heat-transmitting connection element connecting, and in heat transfer communication between, said at least one first storage tank and said at least one second storage tank; anda refrigeration unit comprising: a) a first refrigeration space cooler in heat transfer relation with the refrigeration space being adapted and configured to withdraw heat from the refrigeration space,b) a second refrigeration space cooler in heat transfer relation with the refrigeration space being adapted and configured to withdraw heat from the refrigeration space,c) an evaporator fluidly communicating between the engine and said at least one first storage tank and being adapted and configured to vaporize liquefied combustible gas pumped from said at least one first storage tank to provide the combustible gas for driving the engine,d) a hear exchange loop including a heat transfer medium pump, the second refrigeration space cooler forming a part of the heat exchange loop within the refrigeration space, the heat exchange loop being adapted and configured to allow a heat transfer medium circulating therethrough by the heat transfer medium pump, wherein the second refrigeration space cooler is adapted and configured to exchange heat between an ambient atmosphere in the refrigeration space and the heat transfer medium circulating through the heat exchange loop,e) a heat exchange loop heat exchanger forming part of the heat exchange loop and coupling to the evaporator to exchange heat with the evaporator for vaporization of the liquefied combustible gas,f) a liquefied combustible gas pump fluidly communicating between said at least one first storage tank and the evaporator and being adapted and configured to pump the liquefied combustible gas from said at least one first storage tank to the evaporator, andg) a nitrogen pump fluidly communicating between the first refrigeration space cooler and said at least one second storage tank and being adapted and configured to pump liquid nitrogen from said at least one second storage tank to the first refrigeration space cooler, the first refrigeration space cooler being adapted and configured to exchange heat between an ambient atmosphere in the refrigeration space and liquid nitrogen pumped by the nitrogen pump so as to vaporize the pumped liquid nitrogen, wherein the refrigeration unit is adapted to withdraw heat from the refrigeration space by one or both of the first refrigeration space cooler and the second refrigeration space cooler. 18. The method of claim 17, further comprising the step of: connecting the at least one first storage tank to the at least one second storage tank with the heat-transmitting connection element configured to cool the liquefied combustible gas by the liquid nitrogen. 19. The method of claim 17, further comprising the step of: installing a heat exchanger in the heat-transmitting connection element extended into the at least one first storage tank.
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이 특허에 인용된 특허 (7)
Johnson, Dale T.; Roehrich, Roland L.; Viegas, Herman H., Air conditioning and refrigeration systems utilizing a cryogen and heat pipes.
Goode John E. (Arlington TX) Hoyle Michael D. (Arlington TX) Lance Raymond E. (Fort Worth TX), Liquid natural gas and compressed natural gas total fueling system.
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