RU2123648C1 - Method of accumulating cold and device for realization of this method - Google Patents

Abstract

FIELD: food-processing industry, civil engineering and farming where accumulation of cold is required. SUBSTANCE: during cold season, cooled cooling agent is passed through closed loop which contains several "double pipe" structures connected by means of pipe line in upper portion and partially or fully located in ground. Cold is accumulated in ground. During warm season, cooling agent passed through the same loop is then fed to branch of loop delivering cold to consumer. EFFECT: enhanced efficiency. 19 cl, 1 dwg

Description

 The invention relates to the field of refrigeration, and in particular to the field of conservation of objects at temperatures close to zero, as well as negative, and can be used when storing fruits and vegetables, ripening beer, storing milk and dairy products in a temperate climate with an average temperature exceeding zero, as well as cooling foundations, underground workings, etc.

 A known method of storing products, mainly food (SU, copyright 1 262 221, F 25 D 1/00, 1986), according to which in the walls of the chambers in which the products are stored, communicating cavities filled with circulating refrigerant are made. In the heat-insulating ceiling separating the chamber from the earth’s surface, ventilation openings are made that are open in the cold season for the camera to communicate with the environment. As a result, the refrigerant accumulates cold. In a warm period of time, the ventilation openings are closed. Products are placed in the chambers that are cooled by the cold accumulated by the refrigerant. A disadvantage of the known technical solution should be recognized as its small service life, caused by the inability to accumulate a large amount of cold in this way.

 A known installation for storing products, the operation of which provides a method for accumulating cold, implemented in a device for accumulating cold, which is part of this installation (SU, copyright 1 464 017, F 25 D 1/00, 03/03/89). Through a closed circuit containing tanks located in the ground, connected in the upper part by a pipeline, refrigerant is passed in the cold season, creating a cold accumulator. The closed loop has a branch connected to the consumer. In warm time, cold is transmitted along this branch from the battery to the consumer.

 However, when creating such a circuit, it is necessary to carry out laborious work associated with soil work when deepening the tanks in them.

 The closest analogue of the claimed invention can be recognized as a method of thermostatic storage of products and a system of thermostatic storage of products (RU, patent 2 052 740, F 25 D 3/02, 1966), which presents a method of accumulating cold and a device for its implementation.

 The method of accumulating cold involves passing refrigerant through a closed circuit in the cold season, creating a cold accumulator, followed by transferring cold from the accumulator to the consumer in the warm season.

 The cold storage device comprises a closed circuit for circulating the refrigerant passing through the cold accumulator, and a branch of the circuit for connecting to the consumer. In the soil layer close to its isothermal boundary, in the cold period, a cold reserve is formed using ground moisture in the form of a lithospheric ice-ground mass. Through the latter, atmospheric air is forcedly blown. The refrigerant cooling section of the closed circulation circuit is located in an ice-ground mass.

 The disadvantage of the known technical solution should be recognized as the complexity of its implementation, since it is necessary to dig a pit in the ground, lay the piping system, and fill them with soil. In addition, the device is quite difficult to operate. All of the above leads to a rather high cost of the resulting cold.

 The technical problem solved by the present invention is to develop a simple, low cost and environmentally friendly method of accumulating cold in climatic zones with an average positive annual temperature.

 The technical result obtained as a result of the implementation of the technical solution consists in reducing the cost of cold and expanding the scope of application of cold storage.

 To achieve the technical result, the method of accumulating cold, including passing refrigerant through a closed circuit in the cold season, creating a cold accumulator and then transferring cold from the accumulator to the consumer in the warm season, is characterized in that they use a closed loop containing more than one pipe pipe ", while the latter are fully or partially located in the ground and connected by a pipe in their upper part to a closed loop, configured to connect I am a consumer to him. As a refrigerant, you can use air, water or saline. The refrigerant can be circulated in a loop. A fan or a pump or a turbine can be used as an inducer of refrigerant circulation. An additional liquid refrigerant may be added to the soil between the pipe-in-pipe structures. It is advisable to use water or brine as an additionally introduced refrigerant. Use a closed loop made with the possibility of connecting to it a heat exchanger located on the surface of the soil. In the cold season, the refrigerant flows through a closed circuit to the consumer of the cold. When using air as a refrigerant, it is advisable to perform the circuit with the possibility of removing the air passed through the closed circuit into the atmosphere.

 To achieve the above technical result, a cold storage device comprising a closed circuit for circulating refrigerant passing through a cold accumulator and a branch of the circuit that removes cold to the consumer, characterized in that the closed circuit contains more than one pipe-in-pipe design, fully or partially located in soil and connected in the upper part by a pipeline, and the branch of the circuit, which removes cold to the consumer, is made with the possibility of disconnecting from a closed circuit. The device may further comprise a coolant circulation aid. A fan or a pump, or a turbine, can be used to stimulate the circulation of the refrigerant. On the surface of the soil can be located a heat exchanger connected to a closed loop, configured to disconnect from a closed loop. The heat exchanger can be made with the possibility of connecting to a branch of the circuit, which removes cold to the consumer through a closed circuit. Pipe-in-pipe structures can be oriented vertically or obliquely in the ground. Between the surface of the soil and the cold accumulator a thermal insulation layer may be located. Pipe-in-pipe designs may also be located beneath the cold consumer.

 The drawing shows a diagram of a device for accumulating cold.

 The device contains a closed circuit for circulating refrigerant, containing more than one design 1 "pipe in pipe", fully or partially located in the soil 2 and connected in the upper part of the pipeline 3 with the formation of a closed circuit, fully or partially filled with refrigerant. There is a branch 4 of the circuit, which removes cold to the consumer, made with the possibility of disconnecting from a closed circuit. The device comprises a refrigerant circulation inducer 5, which can be used as a fan or pump, or a turbine, depending on the refrigerant used. The location of the circulation inducer 5 is determined by the circuit design. On the surface of the soil 2 there is a heat exchanger 6 connected to a closed circuit, designed to cool the refrigerant during the year with a negative temperature and made with the possibility of disconnecting from it. The heat exchanger 6 can be made with the possibility of connecting to the branch 4 of the circuit, which removes cold to the consumer through a closed circuit or directly.

 Pipe-in-pipe structures 1 can be oriented vertically in the soil 2.

 Pipe-in-pipe structures 1 may be oriented obliquely in the ground. In this case, they can be located under the premises - the consumer of cold.

 In this embodiment, isolation over the resulting ice accumulator is not needed. In other cases, it is desirable to isolate the frozen ice accumulator from the surface of the earth. The insulation can be made of any heat-insulating material, in particular peat, sawdust, polymer chips, expanded clay and so on. In any case, structures 1 of the type "pipe in pipe" is desirable to be located at an equal distance from each other.

 Between the closed circuit and the branch 4 of the circuit, which removes cold to the consumer, a connecting element 7 may be installed, made with the possibility of overlapping.

 The pipe-in-pipe construction is made in the form of two pipes inserted one into the other, the lower hole being closed at the outer pipe and the inner pipe not reaching the end of the outer one, while the pipes are rigidly fixed relative to each other. When supplying cold, the refrigerant enters the gap between the pipes and exits through the inner pipe. If cold is taken, the refrigerant enters through the inner pipe and exits through the gap.

 The method of accumulating cold is carried out using, for example, the described device, as follows.

 To ensure the specified technical result, through the system of structures of the "pipe in pipe" type, which are completely or partially located in soil 2 and connected by pipelines to a closed circuit, a cooled refrigerant is supplied in the cold season at sub-zero temperatures. In this case, the branch 4 of the circuit, made of pipes and located at the consumer's cold, is preferably turned off. The refrigerant passing through a closed loop of the pipe-in-pipe type design system 1 cools the soil 2 surrounding the pipe, thereby freezing the cold accumulator (ice accumulator). In this case, it is possible to pump liquid refrigerant (water or water-salt solution) into the soil in the intervals between the 1 pipe-in-pipe structures, which will increase the volume of the cold accumulator (ice accumulator). The refrigerant can circulate in a closed circuit both under the influence of a temperature gradient, and forcibly. As a refrigerant, air, water, brine and so on can be used. A pump, a turbine, a fan, and so on can be used as a stimulator 5 of forced circulation of the refrigerant in a closed circuit, depending on the state of aggregation of the refrigerant. Above the surface of the earth a heat exchanger 6 can be installed, which serves during the year with a negative temperature to cool the refrigerant. During a year with a negative temperature, the cooled refrigerant can flow not only into the closed circuit from the 1 pipe-in-pipe designs, but also directly into the part of the circuit passing through the consumer. During a year with a positive temperature, the closed loop from the pipe-in-pipe structures is disconnected from the heat exchanger 6 and connected by means of a circulation inducer 5 to the part of the circuit passing through the cooling consumer. In this case, the refrigerant, circulating along the circuit, located mainly underground, is cooled, and entering the part of the circuit located at the cooling consumer, gives off the cold. In the case of using air as a refrigerant, the circuit can be configured to remove air from the circuit and transfer it to the atmosphere. Since the air passing through the circuit is not polluted by anything, leaving the atmosphere, it does not pollute it. In the case of the use of water or water-salt solutions, the state of ecology also does not worsen. In the case of cooling underground workings, the part of the circuit passing through the consumer mainly passes along the walls of the workings. In the case of cooling the foundations or ground floors of buildings, part of the circuit - branch 4, which removes cold to the consumer, passes in the ground outside and / or inside the building. The depth of the contour is determined by the depth of freezing of the soil in the area, as well as the required temperature in the consumer’s circuit.

 The invention can be illustrated by the following examples.

 1. To cool the beer aging workshop in the immediate vicinity of the brewery in the wasteland, forty wells were drilled to a depth of 16 meters. Previously, in the place of future wells, the soil was removed to a depth twice that of the freezing depth of the soil in the area. Structures 1 "pipe in pipe" are lowered into the well and they are tied at the top to a closed loop. The resulting pit is covered with a heat insulator. In the upper part of the premises of the beer aging workshop, a loop of pipes is installed, which are part of the branch that removes cold to the consumer, which is connected to a closed loop through pipelines. On the surface of the earth above the closed loop, a cooling heat exchanger 6 is installed, which is connected to the closed loop. In a closed loop integrate the circulation agent 5 in the form of a pump. Between the heat exchanger 6 and the closed loop, as well as between the consumer branch and the closed loop, connecting elements 7 (valves) are installed. The closed loop, heat exchanger 6, and branch 4 of the consumer are filled with brine. Soil 2 between structures 1 "pipe in pipe" is saturated with water-salt solution. In the cold season, the connecting elements (valves) are opened and, by means of a flow driver 4, cause the circulation of the water-salt solution in the entire system, the initially cooled water-salt solution passing through the pipe-in-pipe structure 1 and only then goes to branch 4. When this valve on the branch 4 is configured to control the flow rate of the water-salt solution. At the same time, freezing of the cold accumulator (ice accumulator) and cooling of the workshop take place. In the warm season, the heat exchanger 1 is disconnected from the closed loop, and the water-salt solution is circulated by means of a stimulator 5 along a closed loop and branch 4, which removes cold to the consumer, thereby transferring cold from the ice accumulator to the workshop.

 2. A similar design is created near the building, the foundation of which is on soft soils. Branch 4, which removes cold to the consumer, is located around the foundation. The device operates analogously to example 1.

 The use of the data of the method and the device for accumulating cold provides a reduction in the cost of cold and the expansion of the scope of application of cold storage, since it is relatively easy to install equipment or carry out repair work during the operation of the pipe-in-pipe structures.

Claims (19)

 1. The method of accumulation of cold, including the passage in the cold season of the refrigerant through a closed loop with the creation of a cold accumulator, followed by the transfer in the warm season of the cold from the battery to the consumer, characterized in that they use a closed loop containing more than one design "pipe in pipe", while the latter is fully or partially located in the ground and connected by a pipe in their upper part to a closed loop, configured to connect a consumer to it.  2. The method according to claim 1, characterized in that air, water or an aqueous saline solution is used as a refrigerant.  3. The method according to claim 1, characterized in that the circulation of the refrigerant along the circuit is carried out forcibly.  4. The method according to any one of claims 1 or 3, characterized in that a fan or a pump or a turbine is used as a stimulator for the circulation of the refrigerant.  5. The method according to p. 1, characterized in that liquid refrigerant is additionally introduced into the soil between the pipe-in-pipe structures.  6. The method according to claim 5, characterized in that as an additionally introduced refrigerant, water or an aqueous solution of salt is used.  7. The method according to p. 1, characterized in that they use a closed loop made with the possibility of connecting to it a heat exchanger located on the surface of the soil.  8. The method according to claim 1, characterized in that in the cold season, the refrigerant enters through a closed circuit to the consumer of the cold.  9. The method according to p. 2, characterized in that when using air as a refrigerant, the circuit is made with the possibility of removing past closed loop air into the atmosphere.  10. The device of the accumulation of cold, containing a closed circuit for circulating the refrigerant passing through the cold accumulator, and a branch circuit that removes cold to the consumer, characterized in that the closed circuit contains more than one design "pipe in pipe", fully or partially located in the ground and connected in the upper part by the pipeline, and the branch of the circuit, which removes cold to the consumer, is made with the possibility of disconnecting from the closed loop.  11. The device according to claim 10, characterized in that it further comprises a coolant circulation inducer.  12. The device according to claim 11, characterized in that a fan, or a pump, or a turbine is used as a stimulator for the circulation of the refrigerant.  13. The device according to claim 10, characterized in that on the surface of the soil is a heat exchanger connected to a closed loop.  14. The device according to item 13, wherein the heat exchanger is configured to disconnect from a closed loop.  15. The device according to 14, characterized in that the heat exchanger is configured to connect to a branch of the circuit that removes cold to the consumer through a closed loop.  16. The device according to claim 10, characterized in that the pipe-in-pipe construction is oriented vertically in the ground.  17. The device according to clause 16, characterized in that between the surface of the soil and the cold accumulator is a layer of thermal insulation.  18. The device according to claim 10, characterized in that the pipe-in-pipe construction is oriented obliquely in the ground.  19. The device according to p. 18, characterized in that the design of the "pipe in pipe" are located under the consumer of cold.