SU1651053A1 - Solar heat system of greenhouse - Google Patents

Abstract

The invention relates to solar technology and makes it possible to increase the efficiency of the use of solar energy by reducing the heat loss due to evaporation of a heat transfer medium. The greenhouse's solar heat supply system contains a transparent coating 2 77 placed on the southern wall. 1 H 25 8 k and solar-absorbing elements installed at a distance from one another, made in the form of hollow ducts 3, communicated with. 6.7 air ducts placed on the northern wall 4 and the greenhouse ground. Extreme boxes 15 lower ends 16 and the ends of the ducts 7 are in communication with the atmosphere, and the upper ends 17 and ducts 6 - with an internal volume of 8 greenhouses. In the ducts 3 and ducts 6, the supply and discharge pipelines are located, the first of which form between the direct and the second -v reverse branches. The latter are connected with the help of pipelines 14 located in the ground to form a closed circulation loop,; Using the proposed system provides savings of fossil fuels. 5 il. (L &;: l and da Figure 1

Description

The invention relates to solar technology, in particular, to devices for heating and accumulating heat in agricultural objects with solar energy.

The purpose of the invention is to increase the efficiency of the use of solar energy by reducing the heat loss due to evaporation of the heat carrier.

Fig. 1 shows a solar system for greenhouse heat supply, a general view in Fig. 2 is a diagram of the circulation of heat-transfer fluid through pipelines; on fig.Z - greenhouse, cross section | Fig. 4 shows the connection unit of air ducts and branches of the circulation circuit; Fig. 5 illustrates the structure of the exhaust pipe.

The solar heat supply system of the greenhouse t contains 1 transparent coating 2 and placed on the south wall (Absorbing solar radiation elements installed under the latter at a distance from one another. The elements are made in the form of hollow ducts 3, north wall 4 and greenhouse soil 5 air ducts b and 7 are provided with one of the ends communicated with the corresponding boxes 3 of absorbing elements, the other ends of the air ducts 6 of the north wall 4 are connected with the internal volume 8 of the greenhouse, and the other ends 9 of the air ducts 7 of the soil 5 are with the atmosphere, into the box ah 3 and the air ducts 6 of the north wall 4 accommodate supply and discharge pipelines 10 and 1t, the first of which form between themselves 12 straight lines, and the second - the reverse 13 branches, the latter with the help of pipeline 14, located in the ground 5, are connected to the formation of a closed Circulation Circuit, with the extreme boxes 15 lower ends 16 communicating with the atmosphere, and the upper 17 with an internal volume of 8 greenhouses.

The air ducts 7 are connected to the collecting duct 18. In the soil 5, a pebble accumulating layer 19 can be made. The collecting duct 18 is connected to a chimney 20, the outer surface of which is blackened and has a transparent cover 21 mounted on the strings 22 and brackets 23. The assembly duct 18 and the air duct 7 may be made of concrete. To direct the air under the transparent coating 21 of polyethylene film, plates 24 are installed for

spinning of incoming and outgoing air flows. The outer boxes 15 are provided with plates 25 with a corrugated surface.

The solar heating system of the greenhouse works as follows.

When heated in ducts 3, the hot liquid coolant (water) rises through pipelines 10 and 11, placed in ducts 3. In the presence of ducts 15 working on the duct, when heated outside air inlet is provided, the exhaust air system equilibrium of heterogeneous density (due to uneven heating) of the liquid coolant of pipelines 10 and 11, when the air near the northern wall of the greenhouse is drawn into the air ducts 6 and takes part of the heat from pipelines 10 and 11. The violation of equilibrium occurs Odita up until the air temperature at the second ends of the duct 6 is not comparable with the temperature of the heat medium in truboprovodah- 10 and 11 in these areas. Moreover, the action of the exhaust pipe 20 leads to a constant transfer of the air heated in the ducts 3 to the air ducts 7, i.e. under the ground of the greenhouse. By establishing a calculated equilibrium between the amount of solar radiation required to develop green mass of plants and heat for the root system, it is possible to obtain optimal gap sizes for solar radiation to enter the greenhouse and the distance between the ducts 3.

The use of the proposed system in the southern regions will provide savings of fossil fuel and electricity.

Claims (1)

Invention Formula The greenhouse's solar heat supply system, containing a transparent coating placed on the south wall and absorbing solar radiation, is installed below the last one, other than that, in order to increase the efficiency of solar energy use by reducing evaporation heat losses heat carrier, the elements are made in the form of hollow ducts, the system is equipped with air ducts made in the north10 -ifirftfi fini il I I jane.h 2 H s fig.Z L FIG A - # 5