RU2673002C1 - Thermoelectric plant for air drying in agricultural premises - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, namely, equipment for creating a microclimate in rooms for agricultural purposes. In the proposed thermoelectric plant for air drying in agricultural premises containing a thermoelectric unit with liquid heat exchangers of hot and cold junctions located in it and thermoelectric Peltier modules placed between them, plate heat exchangers of cold and hot air treatment circuits and an electric fan. New is that liquid heat exchangers for hot and cold junctions with Peltier thermoelectric modules located between them are located in a heat-insulated unit and connected to plate heat exchangers of cold and hot circuits, combined together with an electric fan in a common body-pipe located in an agricultural room, the heat exchanger of the cold junction is connected by pipeline through the circulation pump of the cold circuit with the heat exchanger of the cold circuit, forming a closed loop, and the hot junction heat exchanger is piped through a hot circuit circulating pump with a hot circuit plate heat exchanger, forming a closed loop as well, with the thermoelectric unit being insulated and installed outside the agricultural room.EFFECT: plant for air drying in agricultural premises allows to increase the reliability and efficiency of the device by increasing the cooling coefficient of the installation.1 cl, 1 dwg

Description

The invention relates to the field of agriculture, and in particular to equipment for creating a microclimate in agricultural premises.

In agricultural production, there are rooms with a large amount of heat and moisture from animals and technological equipment, and where it is required to maintain technologically specified microclimate parameters, including air humidity.

Industrial air conditioners are known that allow solving the issue of heating, cooling and maintaining air humidity by changing the amount of ventilation air (D.N. Murusidze, A.M. Zaitsev, N.A. Stepanova, etc. Installations for creating a microclimate on livestock farms, - Edition 2, revised and supplemented by M .: Kolos, 1979).

The disadvantage of air conditioners is that they are complex, require high capital and operating costs, and as shown by technical and economic calculations, their use in agricultural premises is not economically feasible. In addition, in these systems there are no devices for draining the air, which can significantly reduce the amount of ventilation air, and therefore the operating costs of creating a microclimate in the premises.

Air dehumidifiers help maintain air humidity within specified limits. Devices based on various physical principles will help reduce indoor air humidity. There are four main types of devices: adsorption, compressor, rotary, and Peltier dryers (thermoelectric dryers). The essence of the dehumidification process by compression and thermoelectric dehumidifiers is that the humid air of the room is directed to a cold surface, on which the moisture contained in the air condenses, and, subsequently, flows into a special container.

The thermoelectric drainage method is a promising area in research on the development of drainage systems for agricultural production facilities.

A thermoelectric dehumidifier can be built according to two main schemes: “air-air” - when heat flows from the hot and cold sides of thermoelectric modules are taken directly to air radiators, “air-water-water-air” - when used to remove heat from Peltier modules liquid heat carrier (water, non-freezing liquid). Combinations of the above schemes are possible.

Known dehumidifier for exhaled air samples for drying exhaled air samples, made according to the "air-to-air" scheme, which can be used to dry air during its preparation for gas analysis (RF patent No. 2266045 IPC АВВ 5/08 published on December 20, 2005, Bull. No. 35.). The dehumidifier contains an air sampling channel and a moisture sampling channel. As the heating and cooling elements of the dehumidifier, a Peltier element is used, the working surfaces of which are cooling and heating elements of the dehumidifier

A disadvantage of the known device is that the dehumidifier for exhaled air samples is mainly used for medical analysis of exhaled air samples and the impossibility of its use for dehumidification of agricultural premises.

Known dehumidifier for airtight compartments of spacecraft, made according to the "air-water" scheme, designed to maintain air humidity of the inhabited tight compartments of spacecraft, submarines and in enclosed spaces with high temperature and humidity (RF patent No. 2180421 IPC АВВ 5/08, published: 03/10/2002). The air dryer of the hermetic compartments contains a casing with inlet and outlet pipes, a device for removing moisture, a condenser, a liquid heat exchanger and a thermoelectric cooler based on interconnected thermoelectric modules located in the cavity between the condenser base and the body of the liquid heat exchanger.

A disadvantage of the known device is that in the process of dehumidification of air for the effective operation of thermoelectric modules, it is necessary to supply a refrigerant to the device in the cavity of liquid heat exchangers, which will require additional equipment that creates cold and energy, as well as a moisture removal device made of porous material, under conditions The aggressive environment of agricultural premises will quickly fail.

The closest in technical essence to the proposed invention is a device made according to the "air-to-air" scheme and designed to drain the air in the room (Musorov S.I., Torgaev S.N., Chertikhin D.S. Air dryer on the Peltier element. XX International Scientific and Practical Conference "MODERN TECHNOLOGY AND TECHNOLOGIES 2012). The device selected as a prototype contains Peltier thermoelectric modules, a heat exchange system for modules with a stream of drained air (a set of radiators cooled by a forced air stream created by additionally installed fans), an adjustable current source, a microprocessor controller, room temperature and humidity sensors.

A disadvantage of the known device is the limited heat-radiating surface of the radiators in contact with the flow of drained air, significantly reducing the productivity of the installation and making the installation ineffective in agricultural premises where a relatively large volume of drained air is required.

The present invention is the creation of a thermoelectric installation of air drying and improving the efficiency of the dehumidifier in the premises of agricultural production, as well as maintaining the level of humidity in the premises of agricultural production.

As a result of the use of the present invention, an installation for drying air in agricultural premises allows to increase the reliability and efficiency of the device by increasing the refrigeration coefficient of the installation. Improving the reliability of the installation when working in agricultural facilities, manifested in the presence of high humidity, aggressive gas environment (the presence of carbon dioxide, hydrogen sulfide, etc.) is achieved by the fact that the thermoelectric unit is removed from the room where the air is drained, and heat energy is transferred heat exchangers are carried out using an intermediate heat carrier (water) circulating through pipelines due to the circulation pump, and the increase in the heat coefficient is caused by the presence of heat from olation in the thermoelectric block.

The above technical result is achieved by the fact that in the proposed thermoelectric installation for drying the air of agricultural premises containing a thermoelectric unit, with liquid heat exchangers of cold and hot junctions located therein and thermoelectric Peltier modules placed between them, plate heat exchangers of cold and hot air processing circuits and an electric fan, according to the invention, liquid heat exchangers of cold and hot junctions with they have Peltier thermoelectric modules located in a thermally insulated block and connected to plate heat exchangers of cold and hot circuits, combined together with an electric fan in a common housing - a pipe located in an agricultural room, while the cold junction heat exchanger is connected by a pipe through a cold circuit circulation pump to a cold circuit heat exchanger forming a closed loop, and the hot junction heat exchanger is connected by a pipe through a hot travel from the hot circuit plate heat exchanger also form a closed circuit, wherein the thermoelectric unit is thermally insulated and mounted outside the agricultural premises.

The essence of the invention lies in the fact that a thermoelectric plant for air drying of agricultural premises containing a thermoelectric unit, with liquid heat exchangers of cold and hot junctions and Peltier thermoelectric modules placed between them, are located in a thermally insulated unit and connected to plate heat exchangers of cold and hot circuits combined with an electric fan into the common building - a pipe located in an agricultural room, through which the coolant with the help of circulation pumps circulates through the pipelines. In this case, the thermoelectric unit is thermally insulated and installed outside the agricultural. premises. The installation is equipped with a power source, a microcontroller, temperature and humidity sensors and temperature sensors.

The essence of the invention is illustrated in the drawing, which shows a general diagram of a thermoelectric installation for air drying of agricultural premises.

The thermoelectric installation of air drying for agricultural premises contains a thermoelectric block 18 with thermal insulation 15 with Peltier thermoelectric modules 1 located between the heat exchangers of the cold junction 2 and the hot junction 6, a plate heat exchanger of the cold circuit 3, installed in the casing - the pipe of the air dryer 17, circulating cold circuit pump 4, which is used to circulate fluid in the cold circuit of the installation, electric fan 5, which is located in the housing - the pipe 17 and is used to supply drained air to the installation, the hot junction heat exchanger 6, the hot-plate heat exchanger 7, the expansion tank 8 installed in the hot circuit and used to compensate for the liquid when it is heated, the hot circulation pump 9, for circulating the liquid in the hot circuit of the installation, the power supply of thermoelectric modules 10 provides a stable rated voltage for the elements of the electrical circuit of the installation, the microcontroller 11 provides automatically the operating mode of the installation, temperature and humidity sensors in the room 12, the temperature sensor of the heat exchanger of the cold circuit 13, the temperature sensor of the heat exchanger of the hot circuit 14, thermal insulation 15, the condensate collecting pan 16, the housing-pipe of the air dryer 17, the cold circuit pipe 19, connecting a cold junction heat exchanger 2 with a plate heat exchanger 3 and with a circulation pump 4, a hot circuit pipe 20 connecting a hot junction heat exchanger 6 with a plate heat exchanger 7 with a circulation sucking 9.

Thermoelectric installation of drainage of agricultural premises works as follows.

When the humidity in the room increases above the permissible level, the fan 5, thermoelectric modules 1, circulation pumps 4 and 9 are turned on. The fan 5 starts pumping moist air from the room through the air path of the air dryer. When air moves through the plate heat exchanger 3, the air is cooled by heat exchange with the cold surface of the heat exchanger, and excess moisture condenses on the heat exchange surface of the heat exchanger of the cold circuit 3 and flows into the tray 16 (moisture removal devices). Then, the dried and cooled air passes through a plate heat exchanger of the hot circuit 7, where it is heated to its original temperature. This is required so that the dehumidifier does not cool the room. Dried and heated air is supplied to the agricultural premises, where it is mixed with the air of the room. As a result of mixing the dried air with the room air, the humidity in the room gradually decreases, and when the specified humidity level is reached, the fan 5, thermoelectric modules 1 and circulation pumps 4 and 9 of the refrigerant supply to the heat exchangers 3 and 7 are turned off.

An adjustable power source 10 is necessary for the operation of the microcontroller 11, Peltier thermoelectric modules 1 and circulation pumps 4 and 9.

The value of the output current of the power source 10 sets the temperature gradient on the Peltier thermoelectric modules 1. For the effect of drying the air, it is necessary to achieve the temperature on the cold side of the Peltier 1 thermoelectric module, which corresponds to the dew point, i.e. the temperature at which moisture will condense on the heat exchanger 3, and drain into the pan 16 depends on the ambient temperature and air humidity in the served room. To monitor these parameters, temperature sensors and a humidity sensor 12 installed in the room are used.

Temperature sensors 13 and 14 are installed on a plate heat exchanger of cold 3 and hot 7 circuits. This prevents overheating of the hot side and cooling of the cold side of Peltier thermoelectric modules 1, below the dew point.

Heat exchangers of cold 3 and hot circuit 7, as well as electric fan 5 form a single design and are installed in the room in which it is necessary to drain the air.

To reduce the loss of thermal energy, Peltier thermoelectric modules 1 and heat exchangers of cold 2 and hot 6 junctions are placed in a thermally insulated thermoelectric block 18 installed outside the serviced room.

As a result of the use of the present invention, it becomes possible to increase the reliability of the dehumidifier of agricultural premises and increase the refrigeration coefficient of the installation - the ratio of the produced cold to the consumed electricity.

Claims (1)

Thermoelectric plant for air drying of agricultural premises, containing a thermoelectric unit with liquid heat exchangers for cold and hot junctions located inside it and Peltier thermoelectric modules placed between them, plate heat exchangers for cold and hot air treatment circuits and an electric fan, characterized in that liquid heat exchangers for cold and hot junctions with thermoelectric Peltier modules located between them are located in the heat-insulated unit and connected to plate heat exchangers of cold and hot circuits, combined with an electric fan in a common casing-pipe located in an agricultural room, while the cold junction heat exchanger is connected by a pipe through a cold circuit circulation pump to a cold circuit heat exchanger, forming a closed loop, and the heat exchanger the hot junction is connected by a pipeline through the circulation pump of the hot circuit to the plate heat exchanger of the hot circuit, also forming a closed fifth circuit, wherein the thermoelectric unit is thermally insulated and mounted outside the agricultural premises.

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