RU189207U1 - Ventilation and heating installation with air cooling mode - Google Patents

Abstract

The utility model relates to agriculture, in particular to electrothermal energy-efficient devices designed to create the required microclimate parameters in the production premises of livestock farms and pig houses. As a result of using the proposed utility model, it is possible to provide cooling of inlet ventilation air during the warmest period of the year by using air - water-cooled surface type heat exchanger through which cold water circulates (from the well to of the installation), increases the functionality, efficiency and annual load factor of the installation, expands the scope of application of the ventilation and heating installation, which generally saves energy and full costs for the microclimate maintenance system. The technical result is achieved by the fact that the ventilation and heating installation with air cooling, containing fresh air and exhaust air fans, compact heat exchanger made of polymeric materials, air inlet pipe, exhaust air and fresh air air ducts, supply air electric heater, air purification filters, distribution duct, corona discharge ozonizer with ozone supply pipelines, recirculation channel, booster fan, ejector and moisture separator, equipped with an air-water heat exchanger with cold water inlet and outlet pipes, and an air-water heat exchanger installed between the air supply nozzle and the distribution duct along the path of supply air.

Description

The utility model relates to agriculture, namely to electrothermal energy-efficient devices designed to create the required microclimate parameters in the production premises of livestock farms and pig houses.

Known electro-heat installation, containing the supply and exhaust air fans, compact heat exchanger made of polymeric materials, air supply nozzle, exhaust and supply air ducts, electric air heater installed between the air supply fan and the air supply nozzle, a recirculating duct connecting the surroundings, and a clogged heart. RF Patent No. 2296463, IPC А01К 29/00, А01К 31/20, F24H 3/04, publ. 10.04.2007, Bull. No. 10). The disadvantages of the installation include the absence of a system for cleaning and disinfecting the air removed from the room, which significantly limits the possibility of using internal air recirculation, increases the energy consumption for additional heating of incoming air, and environmental pollution.

It is also known a device for cleaning the air environment of livestock and poultry facilities, containing a fan, cooler, heater, ozonator, and an ejector and separator are installed on the air flow line (RF patent №2473213, IPC А01К 1/03, publ.27.01.2013, Byul. Number 3). The main disadvantage of such a device is the lack of a device for utilizing the heat of circulating air when it is cooled to the dew point. At the same time, the cost of energy for its additional heating to the required temperature is very high. The heat exchanger is not protected against freezing from condensate air, which reduces its efficiency.

Known electric heat exchanger with ozonation and recirculation of air, containing intake and exhaust air fans, compact heat exchanger made of polymeric materials, air inlet pipe, exhaust air and intake air ducts, supply air electric heater, air purification filters, inlet air distributor, corona discharge ozonizer with pipe lines recirculation channel with a damper and a mixing chamber (RF Patent No. 233727, IPC F24F 3/147, F24F 3/16, F24F 12/00, publ. 10.27.2008, Byul. No. 30).

The disadvantages of the known electric heat exchanger are the insufficient quality of air purification and disinfection, restriction of internal air recirculation leads to additional energy consumption for heating the incoming air by long-term activation of the built-in peak electric heater, the possibility of freezing of condensate formed on the heat exchange surface from the exhaust air. This leads to deterioration of heat transfer and reduce the efficiency of the heat exchanger.

All of the above installations do not provide for cooling of the supply air in the warm period of the year, when the temperature in the room becomes higher than acceptable.

The closest in technical essence of the present invention is a ventilation and heating unit with heat recovery, ozonation and air recirculation, containing intake and exhaust air fans, compact heat exchanger made of polymeric materials, air inlet duct, exhaust air and intake air ducts, supply air electric heater, cleaning filters air supply air distributor, corona discharge ozonizer with ozone supply lines, recirculation channel, alarm fan, ejector and water separator (RF Patent No. 2555657, IPC F24F 3/147, publ. 10.07.2015, Byul. No. 19).

The disadvantages of the prototype are: the lack of cooling air supply to maintain a given air temperature inside the livestock building during the warm period of the year, when the air temperature in it exceeds the allowable, limited use of the unit only during the heating period, while additional cooling is required for cooling the air inside the livestock room. equipment.

The objective of the proposed utility model is to ensure the required parameters of the microclimate and, first of all, the temperature in the working area for animals in the production premises of farms and pig houses by heating and cooling the incoming air during the year-round animals, with a significant reduction in energy and total costs for the microclimate maintenance system.

As a result of using the proposed utility model, it becomes possible to provide cooling of intake ventilation air during the warmest period of the year by using an air-to-water heat exchanger of the surface type through which cold water circulates (from a well, water supply system, a refrigeration unit, etc.), increasing functionality and efficiency and the annual load factor of the installation, expands the scope of the ventilation and heating installation, which generally provides energy savings full cost of the microclimate maintenance system.

The above technical result is achieved by the fact that a ventilation-heating unit with air cooling mode, which contains supply and exhaust air fans, a compact heat exchanger made of polymeric materials, air inlet pipe, exhaust air and supply air ducts, supply air electric heater, air cleaning filters, distribution air duct, ozonizer corona discharge with ozone supply lines, recirculation channel, incentive fan, ejector and dehumidifier, according to of the utility model is provided with an air-water heat exchanger with inlet and outlet pipes of cold water, and the air-water heat exchanger installed between the air supply pipe and distribution duct along the path of movement of the supply air.

In the ventilation-heating installation with air cooling mode, the air-water heat exchanger is surface-type based on the operating principle.

The essence of the proposed utility model is illustrated in the drawing, which shows the general scheme of the ventilation and heating system with air cooling.

The installation includes exhaust air fan 1, compact polymer heat exchanger 2, supply air fan 3, peak supply air electric heater 4, air supply nozzle 5, air-water heat exchanger 6, supply air supply duct 7, outlet water nozzle 8, supplying cold water pipe 9, tee 10, flexible ozone supply pipes 11, corona discharge ozonizer 12, exhaust air filter 13, fresh air filter 14, air inlet 15, recirculation onny channel 16, water separator 17, an ejector 18, agitation fan 20, the exhaust-air duct 21.

An air-water heat exchanger 6 with a water outlet pipe 8 and a cold water supply pipe 9 is installed between the air supply pipe 5 and the distribution air duct 7 along the path of the fresh air.

Works ventilation and heating installation with air cooling as follows.

In heating mode, warm and humid air from the room is drawn through the suction inlet of the heat exchanger 2 through the filter 13, where it is cleaned of mechanical impurities and, cooled and dried in the heat exchange process, is removed to the street through the exhaust air duct 21. Outside air is drawn through the inlet of the inlet duct 15 by means of the inlet fan 3, passes through the filter 14 and is fed into the heat exchanger 2, and heated during the heat exchange with warm exhaust air, through the air inlet 5 enters the electric heater 4, in which, if necessary additionally heated to the desired temperature. After it, the intake air is supplied to the distribution duct 7, where, after mixing with ozone, the corona discharge 12 comes from the ozonizer through the tee 10 and the pipeline 11, to the locations of animals.

When the ambient air temperature drops below the value at which the heat exchange surface freezes on the side of the air removed from the room, an incentive fan 20 is turned on, the intake device of which is located in the duct of the exhaust air 21, and part of the warm exhaust air of the room is fed into the recirculation channel 16. In the ejector 18, the conditions for the formation of a water aerosol (fog) are created, and with the help of a flexible pipe 11, ozone is sucked in from the ozonizer 12. A qualitative mixing recirculated air with ozone, which leads to an intensification of the absorption of carbon dioxide and other harmful substances, as well as to the destruction of harmful microflora contained in the recirculating air.

In the dehumidifier 17, the recirculated air is dried, after which it is supplied to the intake duct 15, where it is mixed with the intake outside air. The separated moisture, containing salt solutions and other contaminants formed after the air has been treated with ozone, is discharged into the sewage system.

With such an in-depth method of cleaning the internal air, its 75% recycling is allowed.

In the cooling mode, the supply air under the action of the supply air fan 3 successively passes the supply air duct 15, the heat exchanger made of polymeric materials 2, the electric heater 4 (disconnected in this mode), the air supply nozzle 5 and enters the air-water heat exchanger of surface type 6, where as a result of the heat exchange process, it is cooled with cold water entering the heat exchanger 6 by means of a cold water inlet pipe 9 and removed from it by means of a water outlet pipe 8. Next hlazhdenny supply air enters the air distribution duct 7 and sent to the place location animals.

Claims (1)

Ventilation and heating unit with air cooling mode, which contains supply and exhaust air fans, compact heat exchanger made of polymeric materials, air supply nozzle, exhaust and supply air ducts, supply air electric heater, air purification filters, supply air distributor, corona discharge ozonizer with ozone supply lines , recirculation channel, incentive fan, ejector and water separator, characterized in that it is equipped with air-water heat exchange ICOM with inlet and outlet pipes of cold water, and the air-water heat exchanger installed between the air supply pipe and distribution duct along the path of movement of the supply air.

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