RU2156931C1 - Stirling system for protracted storage of liquefied gases - Google Patents

Abstract

FIELD: protracted storage of liquefied gases. SUBSTANCE: system includes closed nitrogen loop with cryogenic Stirling machine, check valve, heat-insulated reservoir filled with liquid nitrogen and throttle valve. Each liquefied gas vapor recondensation loop consists of heat-insulated reservoir for storage of liquefied gas, safety valve, throttle valve, adjusting valves fitted respectively before and after liquid nitrogen reservoir and check valve fitted before liquefied gas storage reservoir. Recondensation loops have common condensing coil located in liquid nitrogen reservoir. EFFECT: enhanced efficiency; reduced cost. 1 dwg

Description

 The invention relates to the field of cryogenic technology, cryogenic technology, cryogenic gas refrigeration machines operating on the Stirling cycle, as well as the storage of liquefied gases, for example, natural gas.

 It is known that various cycles are used for gas liquefaction, for example, with throttling or expander, however, in the cryogenic temperature range (60-160 K), the most highly efficient cycle is a cycle with a refrigeration machine operating according to the Stirling cycle. The efficiency of cryogenic Stirling machines is almost 2 times higher in comparison with other plants used for gas liquefaction (Usyukin IP Plants, machines and apparatuses of cryogenic technology. M: Light and food industry, 1982, p. 185-186).

It is known by cryogenic technique that the boiling point of nitrogen corresponds to a temperature of -196 ^o C (77K), as well as the use of liquid nitrogen as a cooling liquid (Questions of deep cooling. / Collection of articles edited by prof. MP Malkov /. : "Foreign Literature", M., 1961, p. 43). However, in technologies for the production of liquefied natural gas, liquid nitrogen has not been previously used.

 Known technical solutions for the gasification of liquefied gases before distributing them to consumers using high pressure pumps (Questions of deep cooling. / Collection of articles edited by prof. MP Malkov /. Ed .: "Foreign Literature", M., 1961 , p. 287-288).

 A device of the Dewar vessel for liquid nitrogen with vacuum-powder insulation is known (Sokolov E.Ya., Brodyansky V.M. Energy fundamentals of heat transformation and cooling processes: Textbook for universities. - 2nd ed., - M.: Energoizdat 1981, p. 202).

 It is known that due to external heat inflows in tanks with cryogenic liquids, vapor is formed (vapor of liquefied gases), the amount of which depends on many factors: the shape of the tanks; types of insulation, etc. (RB Scott. The technique of low temperatures. Translation under the editorship of prof. MP Malkov, M .: Publishing House of Foreign Literature, 1962, p. 250). However, the release of vapor outside the liquefied gas storage tank results in either the loss of a valuable product or environmental pollution.

 A device of the gas refrigerating machine "Philips", operating on the reverse Stirling cycle, designed to liquefy air (Questions of deep cooling. / Collection of articles edited by prof. MP Malkov /. Ed .: "Foreign Literature", M ., 1961, p. 35). However, previously these machines were not used to store liquefied natural gas.

 A device is known in which a re-liquefaction of evaporated natural gas is implemented, including a closed nitrogen circuit containing a container with liquid nitrogen and a throttle valve, and a condensation circuit of liquefied gas vapor containing a thermally insulated container for storing liquefied gas and a condensing element (US Pat. No. 4,843,829, cl F 17 C 13/00, 1989). However, in this technical solution, a highly efficient cryogenic Stirling machine is not used for the condensation of nitrogen vapors.

 The technical result that can be obtained by carrying out the invention is to increase the efficiency of systems and reduce material costs during storage and use of liquefied gases, for example, natural gas, as well as to increase the safety of operation of these systems and reduce environmental pollution.

 To achieve this technical result, a system for long-term storage of liquefied gases, including a closed nitrogen circuit containing a container with liquid nitrogen and a throttle valve, and a condensation circuit for vaporization of liquefied gases, containing a thermally insulated container for storing liquefied gases and a condensing element, is equipped with a cryogenic Stirling machine and a return a valve located in a closed nitrogen circuit, and additional circuits for the condensation of liquefied gas vapors, each of which consists of a thermally insulated tank for storing liquefied gases, a safety valve, a throttle valve and a check valve, as well as control valves located respectively before and after a thermally insulated tank with liquid nitrogen, while the condensation circuits of the liquefied gas vapor have a common condensing element made in the form of a coil located in a container with liquid nitrogen.

 Introduction to the system for long-term storage of liquefied gases of a cryogenic Stirling machine and a non-return valve in a closed nitrogen circuit, as well as additional circuits for the condensation of liquefied gas vapors with their own insulated containers for storing liquefied gases, safety, throttle, check and control valves, as well as common for all contours of the condensation of the evaporations of liquefied gases of the condensing element, made in the form of a coil located in a tank with liquid nitrogen, pos It makes it possible to obtain a new property, which consists in the condensation of a vapor of liquefied gases, for example, natural gas, with its subsequent return to the storage tank for liquefied gas, due to the difference in boiling points during heat exchange with liquid nitrogen, the liquefaction of the cryogenic machine's power costs, due to the use of a more efficient the cycle and effect of gas throttling, as well as the possibility of using the same system for storing liquefied gases in several containers at once.

 The drawing shows a system for long-term storage of liquefied gases.

 The system includes a cryogenic Stirling machine 1, located in a closed nitrogen circuit 2, the condensation circuit of the vapor of the stored liquefied gas 3. The closed nitrogen circuit 2, passing through the capacitor (not shown) of the cryogenic Stirling machine 1, includes a check valve 4, a thermally insulated tank with liquid nitrogen 5 and a throttle valve 6. The condensation circuit of the vapor of the stored liquefied gas 3 consists of a thermally insulated container for storing liquefied gas 7, a safety valve 8, a throttle valve 9 , control valves 10, 11 located respectively before and after a thermally insulated tank 5, a condensing coil 12 located in a tank with liquid nitrogen 5, a check valve 13. Connecting control valves 14 are provided for connecting other containers for storing liquefied gases with their vapor condensation circuits , fifteen.

 A system for long-term storage of liquefied gases works as follows.

 Due to external heat influx in the upper part of the tank 7, an evaporation of liquefied gases is formed. These gases must either be removed by discharge into the environment, or recondensed with return to tank 7. The first path leads to the loss of liquefied gas (an expensive product) and significant environmental pollution, which is already unacceptable for modern technologies for storing liquefied gases. To solve the conservation of liquefied gas in the second way, the closed circuit 2 is filled with gaseous nitrogen with increased pressure, and the tank 5 with liquid nitrogen. If it is necessary to condensate the liquefied gas vapor in the tank 7, the cryogenic Stirling machine 1 is turned on, as a result of which nitrogen is liquefied in its condenser (not shown), creating a vacuum in a closed nitrogen circuit 2. The liquid nitrogen from the condenser of the cryogenic Stirling machine 1 is drained through the return valve 4 into a thermally insulated container with liquid nitrogen 5, thereby maintaining the required level of liquid nitrogen in tank 5. As a result of heat transfer, the vapor is condensed, and liquid nitrogen enters the gaseous phase with a higher pressure. Further, gaseous nitrogen passes through the throttle valve 6, as a result of which the nitrogen is pre-cooled, and supplied for condensation to the condenser of the Stirling refrigeration machine 1. Several tanks for storing liquefied gases 7 can be connected alternately (or in parallel) to the heat-insulated container with liquid nitrogen 5 their vapor condensation condensation loops. Each of the circuits 3 operates as follows. When a certain pressure is reached, the safety valve 8 is activated, which serves as a signal to turn on the cryogenic machine 1. As a result, a gaseous vapor of high pressure liquefied gases through the safety valve 8 enters the throttle valve 9, passing through which it enters the condensing coil 12 located in the tank with liquid nitrogen 5, pre-cooled, and then in the coil 12 due to heat exchange with liquid nitrogen, condenses and in the liquid phase through the check valve 13 is discharged into a container for storage liquefied gas 7. Regulating valves 10 and 11 cut off the circuit 3 from the coil 12, if another vessel with liquefied gas is connected to it with its own vapor condensation circuit through the control valves 14 and 15. After the condensation of the vapor and the pressure in the vessel 7 decreases, the system shuts down until the next work cycle.

Sources of information
1. Usyukin I.P. Installations, machines and apparatuses of cryogenic equipment. - M .: Light and food industry, 1982, pp. 185-186.

 2. Issues of deep cooling. / Sat articles edited by prof. M.P. Malkova. Publisher: "Foreign Literature", M., 1961, p. 43.

 3. Issues of deep cooling. / Sat articles edited by prof. M.P. Malkova. Publisher: "Foreign Literature", Moscow, 1961, p. 287-288.

 4. Sokolov E. Ya., Brodyansky V.M. Energy fundamentals of heat transformation and cooling processes: Textbook. manual for universities. - 2nd ed., - M .: Energoizdat, 1981, p. 202.

 5. R. B. Scott. Technique of low temperatures. Translation Ed. prof. M.P. Malkova, Moscow: Izd. foreign letter., 1962, p. 250.

 6. Issues of deep cooling. / Sat articles edited by prof. M.P. Malkova. Publisher: "Foreign Literature", M., 1961, p. 35.

 7. Patent US N 4843829, cl. F 17 C 13/00, 1989, prototype.

Claims (1)

 A system for long-term storage of liquefied gases, including a closed nitrogen circuit containing a tank with liquid nitrogen and a throttle valve, and a condensation circuit for evaporating liquefied gases, containing a thermally insulated tank for storing liquefied gases and a condensing element, characterized in that it is equipped with a cryogenic Stirling machine and a check valve located in a closed nitrogen circuit, and additional circuits for the condensation of liquefied gas vapors, each of which consists of a thermally insulated tank storage of liquefied gases, a safety valve, a throttle valve and a check valve, as well as control valves located, respectively, before and after a thermally insulated container with liquid nitrogen, while the condensation circuits of the liquefied gas vapor have a condenser element common to all, made in the form a coil located in a container with liquid nitrogen.