SU1345019A1 - Device for utilization of heat energy in ventilation and air conditioning systems - Google Patents

Abstract

Invention m. used in ventilation and air conditioning systems. The purpose of the invention is to reduce energy costs by more fully utilizing the moisture of the exhaust air. For this, the device additionally contains a heater 14 installed in the intake duct between the heat exchangers (TU) 2 and 3. The inlet and outlet nozzles 4 and 8 of the inlet air are first along the air flow, TU 2 are communicated by means of bypass ducts 15 and 16 and 18, respectively, with the inlet and outlet nozzles 5 and 9 of the supply air TU 3. Inlet 19 and outlet 20 of the preheater 14 are communicated with additional bypass ducts 21 and 22 with the locking elements 23 and 24, respectively, with the outlet nozzle 9 of the inlet of air TU 3 and inlet pipe 4 of supply air TU 2. The bypass air ducts 15, 16, 21 and 22 communicate with each other using the switching elements 25, 26, 27 and 28 installed in the flow channel 1, and the heat exchange surface of TU 2 and 3 is made from porous material. The partially heated and moistened outside air enters the preheater 14, where it is heated to the required temperature and then supplied to TU 3, which plays the role of an air blender. By reducing the moisture in the porous material of the heat exchange surface in the DUT, the corresponding switching of the regulating, locking and switching elements takes place. TU 2 serves as a humidifier, and TU 3 serves as a heat exchanger. 2 Il. I (About with NU cl oso a

Description

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The invention relates to the technique of ventilation and air conditioning.

The aim of the invention is to reduce energy costs by more fully using moisture from exhaust air.

FIG. 1 is a schematic diagram of an apparatus for utilizing thermal energy in ventilation and air conditioning systems in FIG. 2 is a schematic diagram of a device heat exchanger.

The device for utilization and air conditioning contains (FIG. 1) two heat exchanger 2 and 3 successively located in the inlet channel 1 with inlet and outlet nozzles 4j 5j 6, 7 and 8 "95 10 11 of the inlet and exhaust v6zdu.kh and distribution element 12p installed in exhaust duct 13, heat exchangers 2 and 3 connected in parallel by inlet pipes 6 and 7 of exhaust air through distribution element 12 to a room (not shown), and exhaust pipes 10 and 11 of exhaust air are connected to the atmosphere,

In the supply channel 1 between the heat exchangers 2 and 3, a heater 14 is installed,

The inlet and outlet nozzles A and supply air of the first along the heat exchanger 2 are communicated by means of bypass ducts 15 and 16 to the shut-off elements 17 and 18, respectively, with the input and output nozzles 5 and 9 of the supply air of the second heat exchanger 3, and inlet 19 and Exit 20 of preheater 14 is communicated by means of additional bypass ducts 21 and 22 with shut-off elements 23 and 24, respectively, with the outlet pipe 9 of the inlet air of the second heat supply / hunter 3 and the inlet pipe 4 of the inlet air of the first heat exhaust mash 2

The bypass air ducts 15 ,, 16, 21 and 22 communicate with each other by means of the heat exchange surface 29 installed in the supply channel 1 of the switching elements 25-285 and the heat-consumption plugging device 2 and 3 are made of porous material.

Device for utilization of heat energy in ventilation systems and

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air conditioner pg zzoedukha works in a forward manner.

Outside air through the inlet channel enters the first heat exchanger 2p in which it is heated with the heat of the incoming air through the inlet 6 of the exhaust air.

Distribute. the element 12 at the same time closes the inlet 7 of the air exiting air, the locking elements 17, 18p 23 and 24 are in the closed position5 and the switching elements 25, 26, 27 and 28 are in the open position,

By cooling the exhaust air on the heat exchange surfaces 29 of the heat utilizer 2, condensate is released from the exhaust air side, which is absorbed by the porous material of the heat exchange surfaces 29. After cooling, the exhaust air is discharged through the outlet 10 to the atmosphere and The heated outside air enters the preheater 145 where it is heated to the required temperature and then supplied to the second heat exchanger 3, acting as an air humidifier.

When so second heat exchanger 3 passes through, the air is moistened and partly 1: about cooling due to evaporation of moisture (condensate) s contained in the heat exchange surface 29 of the heat exchanging surface 29, after which the treated air enters through the inlet duct 1 to the room.

By reducing the papi in the porous material of the heat exchanging surface 29 of the second heat exchanger 3, the switching elements 25-28 are closed, the locking elements 17, 18, 23 and 24 are opened and the exhaust nozzle 6 is blocked by the distribution element 12.

Outside air through the intake channel 1 enters through the bypass duct 15 into the second heat exchanger Rear into which exhaust air is simultaneously supplied through the inlet 7.

From the second heat exchanger 3 is partially humidified and preheat air enters; by the bypass duct 21 into the heater 14, where it is heated to the required temperature and.

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then it is supplied through the bypass duct 22 to the first heat exchanger 2, which acts as an air humidifier.

After treatment in the first heat exchanger 2, air enters through the bypass duct 16 through the inlet duct 1 into the room.

By reducing the moisture in the porous material of the heat exchange surface 29 of the first heat exchanger 2, the regulating, locking and switching elements are switched accordingly, and the air treatment cycle is repeated.

Claims (1)

Formula invented by her and A device for utilizing heat energy in ventilation and air conditioning systems, which contains two series-arranged heat exchanger in the inlet channel with inlet and outlet nozzles of the inlet and exhaust air and a friction element installed in the exhaust channel, and the heat exchangers are connected in parallel exhaust air inlets through the distributor element to the room nineteen . A niche and exhaust air outlets are in communication with the atmosphere, characterized in that, in order to reduce energy costs through more complete use of moisture from the exhaust air, the device additionally contains a preheater installed in the inlet duct between the heat utilizers and the inlet and outlet air inlets the first along the air heat exchanger communicated by means of free ducts with shut-off elements, respectively, with the inlet and outlet nozzles of the incoming air of the second heat the utilizer, the inlet and outlet of the preheater are communicated with additional bypass ducts with shut-off elements, respectively, with the output air inlet of the second heat exchanger and the outlet air inlet of the first heat exchanger, the bypass air ducts communicate with each other using the switching elements installed in the inlet channel, and the heat exchange surface heat utilizers are made of porous material. t fI