RU210036U1 - HEAT RECOVERY UNIT WITH DEFROST SYSTEM - Google Patents

Abstract

The utility model relates to the energy industry in agriculture, namely to heat recovery units of ventilation air in livestock buildings. The device contains fans for supply and exhaust air, a heat exchanger, exhaust and supply air ducts, while the exhaust air duct has an open recirculation opening that provides reverse air recirculation, the throughput section of the opening is 50-80% of the cross-sectional area of the exhaust air duct. The device provides a simplification of the design and increases its reliability. 2 ill.

Description

The utility model relates to the energy industry in agriculture, namely to heat recovery units of ventilation air in livestock buildings.

Known heat recovery plant (Ilyin Igor Viktorovich, Ignatkin Ivan Yurievich. Heat recovery plant: Pat. 2627199 RU, MPU A01K 29/00 Appl. 08.07.2016 publ. fan, steam trap pan, supply fan, opening with recirculation damper, piping with flushing nozzles and exhaust duct.

Closest to the claimed device in terms of design is an electric heat recovery unit designed to create and maintain the required microclimate parameters in the production premises of livestock farms (Rastrigin Viktor Nikolaevich, Tikhomirov Dmitry Anatolyevich, Sychkov Alexander Vasilyevich. Electric heat recovery unit: Pat. RU 2296463 C1, IPC A01K 29/ 00 (2006.01), A01K 31/20 (2006.01), F24H 3/04 (2006.01) filed 08.11.2005; published 10.04.2007).

The electric heat recovery plant includes an exhaust air fan, a polymer heat exchanger, a supply air fan, an electric heater for supply air, an air supply pipe, a supply air distributor, an exhaust air filter, a condensate drain, a supply air filter, a supply air duct, a recirculation duct with an air damper, an exhaust air duct air. The heat exchanger is presented in the form of partitions made of polymeric material, forming channels for the flow of heating and heated air.

The disadvantages of this device are the presence of a recirculation channel and an air damper. The use of a recirculation duct to mix the exhaust air with outside air at low temperatures results in freezing of the supply duct. The exhaust air of livestock buildings is characterized by a high moisture content, as a result of which, passing through the heat exchanger, it is cooled and part of its moisture in the form of condensate is deposited on the walls of the heat exchanger exhaust channel. At the same time, part of the moisture is in the form of droplet moisture and dry steam. In the supply duct, the recirculated air mixes with cold outside air and is additionally cooled. The moisture capacity of the air decreases, condensation and frost form. Surrounding surfaces have a negative temperature and frost builds up on them, the throughput area decreases and the heat transfer process is disrupted. And subsequently blocks the supply channel and violates the ventilation of the room.

Freezing of the air damper is also possible, this leads to its blocking, turning relative to the shaft or failure of the drive. In any of these cases, the performance of the device is impaired and the device requires repair.

From the analysis of known similar technical solutions, it was revealed that the technical problem in this area is the freezing of the recirculation channel and the violation of the mobility of shut-off and control elements.

The technical result is a simplification of the design of the device while increasing its reliability.

In a heat recovery unit containing supply and exhaust air fans, a heat exchanger with a condensate trap and an exhaust pipe installed vertically under the heat exchanger, an inlet air duct, an exhaust air duct installed vertically above the heat exchanger, in which an open recirculation opening is made that provides reverse air recirculation, the throughput section of the opening is 50-80% of the cross-sectional area of the exhaust duct.

The proposed device is illustrated by drawings.

In FIG. 1 - diagram of the device in the "recovery" mode;

In FIG. 2 - diagram of the device in the "defrosting" mode.

The heat recovery plant with a defrosting system consists of a supply fan 1; steam trap 2 for condensate removal, exhaust pipe 3, installed vertically under the heat exchanger 4; supply air duct 5, exhaust fan 6 connected to the outlet air duct 7, recirculation opening 8.

The device works as follows. In the recuperation mode (Fig. 1), the performance of the exhaust and supply systems are equal and the pressure in the room is maintained close to atmospheric (P ₁ ≈P _A ). The exhaust air, driven by the fan 6, overcomes the resistance of the heat exchanger, creates air pressure in the recirculation opening (8) and rushes to the top. Since the temperature of the removed air is higher than the outside temperature, natural draft (ΔР _ρ ) arises in the duct 7, which helps to overcome the aerodynamic resistance.

If defrosting is required (Fig. 2), the exhaust fan 6 continues to operate, and the supply fan 1 stops and turns on with reverse rotation (reverses). This ensures the supply of warm air to the supply and exhaust channels of the heat exchanger 4 at the same time.

The frozen condensate melts quickly, however, the balance of the supply and exhaust systems is disturbed. A vacuum is formed in the room (P ₁ <P _A ), to compensate for which atmospheric air rushes into the exhaust duct 7 from the outside, creating a boost for the exhaust air. The exhaust air blown by the fan 6 meets atmospheric air and is partially mixed and sent through the recirculation opening 8 into the room. At the same time, the proportion of incoming fresh air is largely determined by the resistance (throughput) of the recirculation opening 8, the larger it is (the smaller the cross section), the greater the vacuum the system stabilizes and vice versa.

Compared with the prototype, the proposed device prevents freezing of the supply air duct of the heat exchanger in the recirculation mode, freezing and failure of the damper; allows to simplify the design by eliminating the recirculation channel and the air damper.

Claims (1)

A heat recovery unit containing fans for supply and exhaust air, a heat exchanger with a condensate trap and an exhaust pipe installed vertically under the heat exchanger, a supply air duct, an exhaust air duct installed vertically above the heat exchanger, characterized in that an open recirculation opening is made in the exhaust air duct, providing reverse air recirculation, while the throughput of the opening is 50-80% of the cross-sectional area of the exhaust duct.

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