RU2848753C1 - Heat recovery plant - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: installation includes a polymer heat exchanger, a supply air duct with an inlet opening, an exhaust air duct, supply and exhaust air fans, and a system for washing and disinfecting working surfaces. The heat recovery unit is equipped with a corona discharge ozonator connected by a pipeline to a mixing chamber mounted between the heat exchanger and the supply fan with an adjustable louver grille, distributing ozone-saturated and disinfected supply air in the livestock room. The heat recovery unit is equipped with an aerosol disinfection system for the supply air, including a working solution supply line and spray nozzles that spray the disinfectant solution and disinfect the supply air.

EFFECT: optimal microclimate parameters for livestock buildings.

1 cl, 1 dwg

Description

The invention relates to the field of agriculture, namely to heat recovery units for providing a microclimate on livestock farms.

An electric heat recovery unit with ozonation and air recirculation is known, containing fans for supply and exhaust air, a small-sized heat exchanger made of polymeric materials, an air supply pipe, exhaust and supply air ducts, an electric heater for supply air, a recirculation duct with a damper, air purification filters, a supply air distributor, a corona discharge ozonizer, an air supply pipe with flexible ozone supply pipes and a mixing chamber of the recirculation duct (see patent RU No. 2337276).

The disadvantage of this device is that it does not provide rinsing of surfaces on which dirt deposits form.

A ventilation system for disinfection of supply ventilation and air conditioning is known, including supply ventilation, having an input, outputs and a fan, characterized in that the system has switching points on the fan of the suction and discharge pipes using jumpers and dampers or by changing the direction of rotation of the fan impeller, or, if there are outputs, the system has a portable vacuum unit with filters that pumps out air from the premises, an aerosol of a disinfectant is fed into the outputs of the ventilation system or, for greater reliability of disinfection, it is possible to feed the aerosol to other places of the ventilation system (see patent RU 131619).

The disadvantage of this device is the complexity of its design; for partial disinfection of the system, it is necessary to use portable vacuum units and plugs.

The closest in technical essence and the positive effect achieved is a heat recovery unit containing a polymer heat exchanger, a supply air duct with an inlet opening, an exhaust air duct, supply and exhaust air fans, and a system for washing and disinfecting work surfaces (see patent RU 2833970).

The disadvantage of this device is that it does not sufficiently provide the required microclimate parameters for livestock buildings.

An analysis of existing technical solutions has revealed the need to expand the range of heat recovery devices to provide a microclimate on livestock farms with a washing and disinfection system that ensures air disinfection, disinfection of work surfaces, and the destruction of pathogenic microflora.

The technical result is to ensure the required optimal microclimate parameters for livestock buildings.

In order to solve the specified technical problem and achieve the stated technical result, the heat recovery unit, including a polymer heat exchanger, a supply air duct with an inlet opening, an exhaust air duct, supply and exhaust air fans, a system for washing and disinfecting working surfaces, is additionally equipped with a corona discharge ozonizer connected via a pipeline to a mixing chamber mounted between the heat exchanger and the supply fan with an adjustable louvered grille distributing ozone-saturated and disinfected supply air in the livestock building; in addition, the heat recovery unit is equipped with an aerosol disinfection system for the supply air, including a working solution supply line and spray nozzles that provide spraying of the disinfectant solution and disinfection of the supply air.

The essence of the invention is explained by a drawing, which depicts a general diagram of the proposed heat recovery unit.

The heat recovery unit includes a polymer heat exchanger 1 with a supply air duct 2 and an inlet opening 3, an outlet air duct 4, a system for washing and disinfecting working surfaces 5, an electromagnetic valve 6, a working solution preparation unit 7, an electromagnetic valve 8, an aerosol disinfection system consisting of a working solution supply line 9 and spray nozzles 10, an adjustable louvered grille 11, a supply fan 12, a mixing chamber 13, a corona discharge ozonizer 14, a tray 15, a drainage line with an electromagnetic valve 16, an aerodynamic grille 17, an exhaust fan 18.

The heat recovery unit operates as follows. Exhaust fan 18 draws air from the room and delivers it to tray 15, where it is distributed over the surface of heat exchanger 1 by aerodynamic grille 17. Passing through its channels, it warms the cold supply air entering heat exchanger 1 through inlet opening 3 of supply air duct 2 due to its mechanical agitation by supply fan 12. The heated supply air then enters the room from heat exchanger 1, and the cooled exhaust air is removed from the room through outlet air duct 4.

In order to disinfect the air and improve its quality indicators during the operation of the heat recovery unit, the corona discharge ozonizer 14 is switched on, which produces ozone and directs it into the mixing chamber 13, where the supply air that has passed through the heat exchanger 1 from the supply air duct 2 is saturated and disinfected, with its further movement by the supply fan 12 and distribution through the adjustable louvered grille 11 in the livestock building.

Aerosol disinfection of air is carried out as follows. The supply air coming from the street through the inlet opening 3 of the supply air duct 2 due to its mechanical induction by the supply fan 12 passes through the heat exchanger 1, the mixing chamber 13 and is distributed in the livestock building with the help of an adjustable louvered grille 11, simultaneously with this, a disinfectant solution is sprayed into the supplied supply air by spray nozzles 10, supplied from the working solution preparation unit 7 through the open electromagnetic valve 8, along the working solution supply line 9 of the aerosol disinfection system, while the electromagnetic valve 6 is closed, the active substance of the disinfectant solution, interacting with the supply air, destroys particles of pathogenic or opportunistic microflora located in the air, settles on the surfaces of the technological equipment located in the room, ensuring their disinfection.

To remove deposits on the heat exchange surfaces, the supply fan 12 and the exhaust fan 18 are switched to the “off” mode, the electromagnetic valve 6 is opened, the washing solution from the working solution preparation unit 7 enters the system for washing and disinfecting the working surfaces 5, is sprayed on the heat exchange surfaces, washing away the deposits, flows into the tray 15, from where it is removed through the drainage line through the open electromagnetic valve 16, while the electromagnetic valve 8 on the working solution supply line 9 to the spray nozzles 10 is closed.

Compared to the prototype, the proposed device will provide the required optimal microclimate parameters for livestock buildings.

Claims (1)

A heat recovery unit comprising a polymer heat exchanger, a supply air duct with an inlet opening, an outlet air duct, supply and exhaust air fans, a system for washing and disinfecting work surfaces, characterized in that the heat recovery unit is additionally equipped with a corona discharge ozonizer connected by means of a pipeline to a mixing chamber mounted between the heat exchanger and the supply fan with an adjustable louvered grille distributing ozone-saturated and disinfected supply air in a livestock building; in addition, the heat recovery unit is equipped with an aerosol disinfection system for the supply air, including a working solution supply line and spray nozzles that provide spraying of the disinfectant solution and disinfection of the supply air.