CN113154770B

CN113154770B - Refrigeration house refrigerating system

Info

Publication number: CN113154770B
Application number: CN202110183453.2A
Authority: CN
Inventors: 侯予; 王喆锋; 陈良; 陈双涛; 杨潇翎; 张蓓乐; 张兴群
Original assignee: Xian Jiaotong University
Current assignee: Xian Jiaotong University
Priority date: 2021-02-10
Filing date: 2021-02-10
Publication date: 2022-08-05
Anticipated expiration: 2041-02-10
Also published as: CN113154770A

Abstract

The application belongs to the technical field of refrigeration, especially relates to a freezer refrigerating system. The air supply temperature of the existing refrigeration house depends on the evaporation temperature of an evaporator, so that the adjustment is not convenient, and the heat exchange loss exists. The application provides a freezer refrigerating system, get rid of subassembly, gas temperature adjustment subassembly and heat exchange assemblies including the moisture that connects gradually, heat exchange assemblies sets up in the freezer, moisture is provided with impurity adsorption component in getting rid of the subassembly. The dehumidification is finished outside the warehouse; the air is directly supplied to the cold storage without a fan coil and is directly mixed with the gas in the cold storage, so that the heat transfer is accelerated, and the cooling rate is improved.

Description

Refrigeration house refrigerating system

Technical Field

The application belongs to the technical field of refrigeration, especially relates to a freezer refrigerating system.

Background

The cold storage is a constant temperature and humidity storage device which is generally used for creating an environment with different outdoor temperature or humidity by a manual means and storing food, chemical engineering, medicines, vaccines, scientific experiments and other articles. The general cold storage is mostly refrigerated by a refrigerator, and working media (ammonia, freon and the like) with lower gasification temperature are used as a coolant to evaporate under the conditions of low pressure and mechanical control to absorb heat in the cold storage, thereby achieving the purpose of cooling. The most common is vapor compression refrigeration, which is mainly composed of a compressor, a condenser, a throttle valve, an evaporator, and the like.

Generally, the cooling is divided into direct cooling and indirect cooling. The evaporation tube is installed in the cold storage room through direct cooling, and when the liquid refrigerant passes through the evaporation tube, the heat in the cold storage room is directly absorbed. The indirect cooling is that the air in the storehouse is sucked into the air cooling device by the blower, and the air is sent into the storehouse after being absorbed by the evaporation tube in the cooling device. The air cooling mode has the advantages of rapid cooling, uniform temperature in the warehouse and capability of taking harmful gases such as carbon dioxide and the like generated in the storage process out of the warehouse.

The air supply temperature of the existing refrigeration house depends on the evaporation temperature of an evaporator, so that the adjustment is not convenient, and the heat exchange loss exists.

Disclosure of Invention

1. Technical problem to be solved

Based on current freezer air supply temperature depends on evaporimeter evaporating temperature, be not convenient for adjust to there is the problem of heat transfer loss, this application provides a freezer refrigerating system.

2. Technical scheme

In order to reach foretell purpose, this application provides a freezer refrigerating system, get rid of subassembly, gas temperature adjustment subassembly and heat exchange assemblies including the moisture that connects gradually, heat exchange assemblies sets up in the freezer, moisture is got rid of and is provided with impurity adsorption component in the subassembly.

Another embodiment provided by the present application is: the moisture removal component comprises a stage aftercooler and a dewatering heat exchanger, the gas temperature regulation component comprises a centrifugal compression and expansion all-in-one machine, the centrifugal compression and expansion all-in-one machine is connected with the stage aftercooler, the centrifugal compression and expansion all-in-one machine is connected with the dewatering heat exchanger, the stage aftercooler is connected with the dewatering heat exchanger, the impurity adsorption component is arranged in the dewatering heat exchanger 4, and the impurity adsorption component is an activated carbon layer.

Another embodiment provided by the present application is: the centrifugal compression-expansion all-in-one machine comprises a compressor, an expander and a high-speed motor, wherein the compressor, the expander and the high-speed motor are coaxially and integrally arranged.

Another embodiment provided by the present application is: the compressor comprises a compression inlet and a compression outlet, the expansion machine comprises an expansion inlet and an expansion outlet, the after-stage cooler is connected with the compression outlet, the heat exchange assembly is connected with the compression inlet, the expansion outlet is connected with the heat exchange assembly, and the expansion inlet is connected with the dewatering heat exchanger.

Another embodiment provided by the present application is: the water removal heat exchanger comprises a hot side and a cold side, and the hot side is connected with the fan.

Another embodiment provided by the present application is: the freezer is including mixing the wind layer, heat exchange assembly set up in mix the wind in situ.

Another embodiment provided by the present application is: the centrifugal compression-expansion all-in-one machine comprises a rotor, and the rotor air bearing or the magnetic suspension bearing is used as a support.

Another embodiment provided by the present application is: the heat exchange assembly is a heat regenerator, the heat regenerator is connected with the gas temperature adjusting assembly, and the heat regenerator is arranged in the air mixing layer.

Another embodiment provided by the present application is: still include gas flow control assembly, gas temperature adjustment assembly gas flow control assembly with heat exchange assemblies connects gradually.

Another embodiment provided by the present application is: the gas flow adjusting assembly is a bypass valve, the bypass valve is connected with the centrifugal compression and expansion all-in-one machine, and the bypass valve is connected with the heat exchange assembly.

3. Advantageous effects

Compared with the prior art, the freezer refrigerating system that this application provided's beneficial effect lies in:

the application provides a freezer refrigerating system, for the multi-functional freezer refrigerating system of adjustable storehouse temperature.

The refrigeration house refrigeration system provided by the application can be used for dehumidifying outside a house; the air is directly supplied to the cold storage without a fan coil and is directly mixed with the gas in the cold storage, so that the heat transfer is accelerated, and the cooling rate is improved.

The application provides a freezer refrigerating system uses centrifugal compression expansion all-in-one can directly supply air, reduces the heat transfer loss to the temperature, the flow of air supply can be adjusted through the regulation rotational speed, and the accurate control of temperature can be realized in the electrodeless regulation of rotational speed.

The application provides a freezer refrigerating system, adjustable storehouse temperature is cold volume.

The application provides a freezer refrigerating system can the governing system pressure ratio, expansion ratio and flow through the rotational speed of adjusting centrifugal compression expansion all-in-one to the temperature and the cold volume of control expansion outlet, bypass valve has been arranged to the regenerator cold side, and the temperature of giving the freezer air supply is controlled to the gaseous flow of rethread regulation entering regenerator, guarantees the temperature homogeneity of freezer.

The application provides a freezer refrigerating system uses centrifugal compression expansion all-in-one. The compressor, the expander and the high-speed motor are coaxially and integrally arranged, the structure is simple, the system volume is reduced, the expansion work is recovered, and the system efficiency is improved. And the air floatation or magnetic levitation bearing is used, so that no abrasion and no lubricating oil exist. Long service life, high reliability, obvious maintenance cost, no lubricating oil and no pollution to air supply.

The application provides a freezer refrigerating system can carry out big cold volume quick-freeze.

The application provides a freezer refrigerating system, when high rotational speed high pressure ratio, the air supply temperature of inflation export is low, cold volume is big, then directly air supply to the freezer or adjust to suitable temperature through the regenerator and send into the freezer, can realize the quick-freeze effectively to guarantee temperature homogeneity.

Drawings

FIG. 1 is a schematic view of a refrigeration house refrigeration system of the present application;

in the figure: the system comprises a 1-refrigeration house, a 2-centrifugal compression and expansion integrated machine, a 3-stage after cooler, a 4-dewatering heat exchanger, a 5-fan, a 6-air mixing layer, a 7-heat regenerator and an 8-bypass valve.

Detailed Description

Hereinafter, specific embodiments of the present application will be described in detail with reference to the accompanying drawings, and it will be apparent to those skilled in the art from this detailed description that the present application can be practiced. Features from different embodiments may be combined to yield new embodiments, or certain features may be substituted for certain embodiments to yield yet further preferred embodiments, without departing from the principles of the present application.

Referring to fig. 1, the application provides a freezer refrigerating system, get rid of subassembly, gas temperature adjustment subassembly and heat exchange assemblies including the moisture that connects gradually, heat exchange assemblies sets up in freezer 1, be provided with impurity adsorption component in the moisture gets rid of the subassembly.

The expanded low-temperature air enters the heat exchange assembly to be reheated and then is sent into the refrigeration house 1, the return air in the refrigeration house 1 firstly enters the heat exchange assembly and exchanges heat with cold air sent into the refrigeration house 1, cold energy is recycled, then the air enters the gas temperature adjusting assembly to be compressed and pressurized, the compressed high-temperature and high-pressure air enters the moisture removing assembly to be cooled and dewatered, and the air except the water enters the gas temperature adjusting assembly to be expanded and cooled and then is supplied to the refrigeration house. The gas temperature and the refrigerating capacity can be adjusted through the gas temperature adjusting assembly.

The return air can completely come from the refrigeration house 1, external air is not introduced, the gas components in the refrigeration house are kept to the maximum extent, and the gas atmosphere in the refrigeration house is not influenced. The moisture removing component outside the warehouse is used for removing redundant moisture, can adjust the humidity in the warehouse and ensures that the warehouse is frostless.

Further, the moisture removing component comprises a stage aftercooler 3 and a dewatering heat exchanger 4, the gas temperature adjusting component comprises a centrifugal compression and expansion all-in-one machine 2, the centrifugal compression and expansion all-in-one machine 2 is connected with the stage aftercooler 3, the centrifugal compression and expansion all-in-one machine 2 is connected with the dewatering heat exchanger 4, the stage aftercooler 3 is connected with the dewatering heat exchanger 4, the impurity adsorbing component is arranged in the dewatering heat exchanger 4, and the impurity adsorbing component is an activated carbon layer.

The water removal heat exchanger 4 is used for removing redundant water, and meanwhile, the activated carbon layer is used for removing impurities in the gas in an adsorption mode.

Further, the centrifugal compression-expansion all-in-one machine 2 comprises a compressor, an expander and a high-speed motor, wherein the compressor, the expander and the high-speed motor are coaxially and integrally arranged.

The centrifugal compression-expansion integrated machine 2 is used, the expansion machine, the high-speed motor and the compressor are coaxially and integrally arranged, the expansion and compression processes are realized by the centrifugal compression-expansion integrated machine 2, the system is simpler, the reliability is high, the system volume is reduced, the expansion work is recovered, the power consumption of the motor is reduced, the system efficiency is improved, the system pressure ratio can be adjusted by adjusting the rotating speed of the centrifugal compression-expansion integrated machine 2, the temperature adjustment of an expansion outlet and the adjustment of the system flow are realized, and the low-storage-temperature preservation and the quick-freezing cooling are realized at high rotating speed.

Further, the compressor comprises a compression inlet and a compression outlet, the expansion machine comprises an expansion inlet and an expansion outlet, the after-stage cooler 3 is connected with the compression outlet, the heat exchange assembly is connected with the compression inlet, the expansion outlet is connected with the heat exchange assembly, and the expansion inlet is connected with the water removal heat exchanger 4.

Further, the water removal heat exchanger 4 comprises a hot side and a cold side, and the hot side is connected with the fan 5. A fan 5 is installed at the hot side of the water removal heat exchanger 4.

Further, freezer 1 includes mixes wind layer 6, heat exchange assemblies set up in mix in the wind layer 6.

Further, the centrifugal compression-expansion all-in-one machine 2 comprises a rotor, and the rotor air bearing or a magnetic suspension bearing is used as a support.

Adopt air bearing or magnetic suspension bearing as the support for centrifugal compression expansion all-in-one 2 can reach higher rotational speed, can make centrifuge reach higher efficiency under the high rotational speed, and effectively reduce centrifugal compression expansion all-in-one 2's volume, and the suspension bearing does not need lubricating oil simultaneously, and the air of sending into the freezer can not polluted by oil.

Further, the heat exchange assembly is a heat regenerator 7, the heat regenerator 7 is connected with the gas temperature adjusting assembly, and the heat regenerator 7 is arranged in the air mixing layer 6.

Further, still include gas flow control assembly, gas temperature adjustment assembly gas flow control assembly with heat exchange assemblies connects gradually.

Further, the gas flow adjusting assembly is a bypass valve 8, the bypass valve 8 is connected with the centrifugal compression and expansion all-in-one machine 2, and the bypass valve 8 is connected with the heat exchange assembly.

The heat regenerator 7 is arranged in the cold storage and is connected with the centrifugal compression-expansion all-in-one machine 2, a bypass valve 8 is arranged on the cold fluid side of the heat regenerator, and the centrifugal compression-expansion all-in-one machine 2 is connected with the post-stage heat exchanger 3 and the dewatering heat exchanger 4. And the bypass valve 8 is used for adjusting the gas flow entering the heat regenerator 7, so that the control of the air supply temperature is realized. The centrifugal compression and expansion integrated machine 2 is used for realizing the compression and expansion of gas, the heat regenerator 7 and the after-stage cooler 3 are used for carrying out heat exchange, and the water removal heat exchanger 4 is used for carrying out dehumidification.

The expanded low-temperature air can directly enter a heat regenerator 7 for heat regeneration, and the air sent into the refrigeration house can be adjusted to the proper temperature through a bypass valve 8, then enters the air mixing layer for air mixing, and finally is sent into the refrigeration house 1. The return air in the refrigeration house 1 firstly enters the heat regenerator 7 to exchange heat with the cold air fed into the refrigeration house 1, the cold energy is recycled, the return air enters the centrifugal compression and expansion integrated machine 2 to be compressed and pressurized, the compressed high-temperature and high-pressure air enters the after-stage cooler 3 to exchange heat and cool, then enters the dewatering heat exchanger 4 to cool and dewater, and the air except the water enters the centrifugal compression and expansion integrated machine 2 to be expanded and cooled.

The expansion outlet of the centrifugal compression and expansion integrated machine 2 can directly supply air, and also can supply air after entering the heat regenerator 7 for heat regeneration, the temperature of the air fed into the air mixing layer is controlled by the bypass valve 8, the temperature of the supplied air is controlled not to be too low when the rotating speed is high and the cooling capacity is large, and the temperature uniformity is ensured. The direct mixing of the air mixing layer gas is beneficial to increasing the heat transfer rate and accelerating the cooling of the refrigeration house.

Examples

The embodiment of the application provides a multifunctional refrigeration house refrigeration system with adjustable temperature, and the working principle diagram of the system takes figure 1 as an example.

A multifunctional refrigeration house refrigeration system with adjustable temperature mainly comprises a heat regenerator 7, a bypass valve 8, a centrifugal compression and expansion integrated machine 2, a post-stage cooler 3, a dewatering heat exchanger 4 and a fan 5. The heat regenerator 7 is arranged in the refrigeration house 1 and is connected with the centrifugal compression and expansion all-in-one machine 2, a bypass valve 8 is arranged on the cold fluid side of the heat regenerator, the centrifugal compression and expansion all-in-one machine 2 is connected with the post-stage heat exchanger 3, the dewatering heat exchanger 4 is connected, and the fan 5 is arranged on the hot side of the dewatering heat exchanger 4.

The working process of the invention is as follows: the expanded low-temperature air enters a heat regenerator 7 for heat regeneration, the air fed into the refrigeration house is adjusted to a proper temperature through a bypass valve 8, the air enters a mixed air layer for air mixing, the air is finally fed into the refrigeration house 1, the return air in the refrigeration house 1 firstly enters the heat regenerator (1) for heat exchange with cold air fed into the refrigeration house 1, the cold energy is recovered, the air enters a centrifugal compression and expansion all-in-one machine 2 for compression and pressurization, the compressed high-temperature high-pressure air enters a staged after-cooler 3 for heat exchange and temperature reduction, then enters a water removal heat exchanger 4 for temperature reduction and water removal, and the air except the water enters the centrifugal compression and expansion all-in-one machine 2 for expansion and temperature reduction.

The pressure ratio and the expansion ratio of the system can be adjusted by adjusting the rotating speed of the centrifugal compression-expansion integrated machine 2, so that the air temperature and the refrigerating capacity of an expansion outlet are adjusted, and the temperature of the air sent into the refrigeration house 1 is directly controlled by adjusting the bypass valve 8 of the heat regenerator 7. Under the condition of high rotating speed and high pressure ratio, the air supply temperature of an expansion outlet can reach very low, and the special requirements of low storage temperature and quick freezing can be met.

The return air can completely come from the refrigeration house 1, no external air is introduced in the process, and the gas components in the refrigeration house are kept to the maximum extent. A water removal heat exchanger 4 is arranged downstream of the after-stage cooler 3 for removing excess water.

The centrifugal compression-expansion all-in-one machine 2 adopts an air bearing or a magnetic bearing as a support, so that the centrifugal compression-expansion all-in-one machine 2 can reach higher rotating speed, the volume of the centrifugal compression-expansion all-in-one machine 2 can be effectively reduced at high rotating speed, higher efficiency is obtained, meanwhile, the suspension bearing does not need lubricating oil, and the air sent into a refrigeration house is not polluted by the oil.

Although the present application has been described above with reference to specific embodiments, those skilled in the art will recognize that many changes may be made in the configuration and details of the present application within the principles and scope of the present application. The scope of protection of the application is determined by the appended claims, and all changes that come within the meaning and range of equivalency of the technical features are intended to be embraced therein.

Claims

1. A freezer refrigerating system which characterized in that: the device comprises a moisture removing assembly, a gas temperature regulating assembly and a heat exchange assembly which are sequentially connected, wherein the heat exchange assembly is arranged in a cold storage, and an impurity adsorbing member is arranged in the moisture removing assembly; the gas temperature adjusting assembly comprises a centrifugal compression and expansion all-in-one machine, the centrifugal compression and expansion all-in-one machine is connected with the post-stage cooler, the centrifugal compression and expansion all-in-one machine is connected with the water removal heat exchanger, the post-stage cooler is connected with the water removal heat exchanger, and the impurity adsorbing component is arranged in the water removal heat exchanger; the centrifugal compression and expansion all-in-one machine comprises a compressor, an expander and a high-speed motor, wherein the compressor, the expander and the high-speed motor are coaxially and integrally arranged; the refrigeration house comprises an air mixing layer, and the heat exchange assembly is arranged in the air mixing layer; the heat exchange assembly is a heat regenerator, the heat regenerator is connected with the gas temperature adjusting assembly, and the heat regenerator is arranged in the air mixing layer.

2. The freezer refrigeration system of claim 1, wherein: the impurity adsorbing member is an activated carbon layer.

3. The freezer refrigeration system of claim 2, wherein: the compressor comprises a compression inlet and a compression outlet, the expansion machine comprises an expansion inlet and an expansion outlet, the after-stage cooler is connected with the compression outlet, the heat exchange assembly is connected with the compression inlet, the expansion outlet is connected with the heat exchange assembly, and the expansion inlet is connected with the dewatering heat exchanger.

4. The freezer refrigeration system of claim 1, characterized by: the water removal heat exchanger comprises a hot side and a cold side, and the hot side is connected with the fan.

5. The freezer refrigeration system of claim 1, characterized by: the centrifugal compression-expansion all-in-one machine comprises a rotor, and the rotor air bearing or the magnetic suspension bearing is used as a support.

6. The freezer refrigeration system of any one of claims 1 ~ 5, characterized by: still include gas flow control assembly, gas temperature adjustment assembly gas flow control assembly with heat exchange assemblies connects gradually.

7. The freezer refrigeration system of claim 6, characterized by: the gas flow adjusting assembly is a bypass valve, the bypass valve is connected with the centrifugal compression and expansion all-in-one machine, and the bypass valve is connected with the heat exchange assembly.