RU36878U1 - SUNNY AIR HEATER - Google Patents

Description

2003130542

Mlilliilllil PMPMK: F 24 J 2/42

Solar air heater

The technical solution relates to solar engineering and is intended to convert solar energy into heat and electricity for subsequent use in domestic conditions, for example, for heating tents, yurts, various types of premises with heated air.

Known combined solar collector containing a housing with thermal insulation, a translucent screen, a heat exchange surface with a coolant and photoconverters (the closest analogue, see AS USSR No. 1751625, F 2412 / 42,1992).

The disadvantage of this device is the low efficiency of the use of incident solar radiation and the inability to carry out repairs in case of failure of the photovoltaic converter or structural member of the combined solar collector.

The purpose of the proposed technical solution is to eliminate these disadvantages.

This goal is achieved by the fact that the solar air heater is made in the form of a photoelectric and air heating modules electrically connected through a fan, the photoelectric module comprising photoelectric converters fixed in a separate housing, the air heating module comprising a heat receiving panel in its housing with pipes connected to the supply and exhaust air collectors, thermal insulation, a translucent screen, and a fan is installed at the inlet of the air supply manifold.

The implementation of a solar air heater in the form of two modules, a photovoltaic and an air heater, increases the efficiency of using solar energy incident on the receiving surfaces of the modules.

By separating the photoelectric converters (PEC) into a separate module, the surface area of the heat-receiving panel of the air-heating module increases, and, accordingly, the heating of the air (coolant) circulating through the pipes of the heat-receiving panel increases. Additional air heating is 15%, i.e. by the average value of the efficiency of photoelectric converters.

The installation of the solar cells in a separate module leads to a decrease in the temperature of the substrate on which the solar cells are fixed, and, thus, increases the electric power generated by them. This increases the maintainability of the solar cells and other structural elements of the photovoltaic module.

The implementation of a solar air heater in the form of two modules also allows the use of unified designs of currently produced both a photovoltaic and an air-heating (solar collector) module, which increases the convenience of their production and operation.

In FIG. 1 presents the proposed solar air heater.

The device includes two modules - photoelectric 1 and air heating 2. The photoelectric module contains photoelectric converters 3, mounted in a separate housing. The air-heating module consists of a housing 4 with a heat-receiving panel 5 with pipes connected by inlet 6 and outgoing air collectors 7, thermal insulation 8, a translucent screen 9 and fan 10, installed at the inlet of the inlet air supply manifold.

Solar air heater operates as follows.

The solar radiation passing through the super-transparent screen of the air-heating module heats the heat-receiving panel, and the air pumped by the fan transfers heat through the pipes of the panel to the heated room.

PES of the photovoltaic module under the influence of solar radiation generate electrical energy, which energizes the air fan.

A solar air heater with all the features described is designed and manufactured by the applicant company. The proposed utility model successfully passed the entire cycle of field tests and showed high operational characteristics when operating in sunny weather at ambient temperature from minus 30 to + 30 ° С.

Solar air heater is made of environmentally friendly materials and does not emit harmful substances during operation and disposal.

Deputy Director of DORNOT Company LLC

f - & SX4. h

/ CompanyYp

/ DORNO

 SasrasSasEsags

, 1 -DORNOT

 Co Ltd /,

A.M. Kozhukhin

-1Ј%, ORNOT

Claims (1)

A solar air heater comprising a housing with a heat-receiving panel including heat-transfer pipes and a closed translucent screen, thermal insulation, photoelectric converters, characterized in that it is made in the form of photoelectric and air-heating modules connected electrically through a fan, the photoelectric module containing photoelectric converters fixed in in a separate housing, the air-heating module contains in its housing a heat-receiving panel with pipes, connected headers, heat insulation, a translucent screen, and a fan is installed at the inlet of the air inlet collector.