RU2023215C1 - Heating panel for summer shower - Google Patents

Abstract

FIELD: solar-energy engineering. SUBSTANCE: heating panel has heat exchanger combined with thermal accumulator and upper cover transparent to sun rays. Thermal accumulator consists of two layers of material. Outer layer is made in form of housing and its heat conductivity is lesser than that of the inner layer. Percentage of components of outer and inner layers of accumulator is given. EFFECT: enhanced efficiency. 1 dwg, 1 tbl

Description

 The invention relates to heaters using heat accumulated in heat-intensive masses, in particular in materials with a solid-liquid phase transition.

 Known solar collector combined with a thermal battery containing a housing in which is placed a matrix of polymeric material. In the matrix material, granular material not miscible with it is uniformly distributed with a phase transition point lying in the operating temperature zone of the solar collector.

 The disadvantages of the device is the use of a container, which complicates the design and increases the material consumption, as well as the use of a polymer material filled with a phase transition substance, which does not allow to achieve a high thermal capacity.

 The purpose of the invention is to simplify the design and increase its thermal capacity.

 This is achieved by the fact that the panel of the summer shower consists of a heat exchanger and layers of heat-accumulating material deposited on it with self-supporting properties that differ in thermal conductivity from each other.

 The drawing shows the proposed device.

 It consists of a flat plate heat exchanger 1, on which a transparent coating 2 made of glass, film or polymethyl methacrylate is fixed. The air gap between the heat exchanger and the transparent coating provides a greenhouse effect and reduces heat transfer to the environment. On the opposite side of the heat exchanger, a layer of heat-accumulating containerless material 3 is deposited, and on it is a layer of containerless heat-accumulating material 4. The outer layer of the material is made in the form of a housing and has a thermal conductivity less than the thermal conductivity of the inner layer.

Water passing through the channels of the heat exchanger is heated by solar heat. Part of this heat is spent on heating the heat-accumulating materials and melting its phase-transition components. A wide range of material melting (47-90 ° ^C) makes better use of the heat of solar radiation, as a relatively small enough to enable the heating heat accumulating material into work. When the thickness of the inner layer of the material is 0.1-0.2 m, it accumulates from 8400 to 14400 kJ of heat. When the thickness of the outer layer of the heat-accumulating material is 0.03-0.05 m, an additional 420-720 kJ of heat is accumulated in it. The heat accumulated during the day is used to heat the water passing through the heat exchanger in the evening and at night or during low solar radiation.

The inner layer of the heat storage material includes the following components, wt.%:
Epoxy resin
ED-16 or ED-20 with hardener 10-20
Polyethylene glycol PEG-115 20-25 Aluminum powder 10-15 Brown wax
The outer layer of the heat storage material includes the following components, wt.%:
Epoxy resin
ED-16 or ED-20 with hardener 10-25
Polyethylene glycol PEG-115 10-30 Perlite 5-10 Lignite wax Other
PRI me R. Brown coal wax (TU 39-232-86) is melted in a heating cabinet together with a given amount of PEG-115 (TU 6-14-826-86). A filler (perlite (GOST 10832-74) or aluminum powder (GOST 5444-71), depending on the type of material, is introduced into the melt. All components are thoroughly mixed. Then, epoxy resin ED-16 or ED-20 (GOST 10587- 84) containing hardener polyethylene polyamine. All components of the mixture are mixed until a homogeneous material is applied and applied to a thermostatic surface. The material is cured during the day at room temperature. The composition and properties of the materials are given in the table.

 The effectiveness of the proposed solution lies in the fact that the use of a two-layer heat accumulator ensures the accumulation of a significant amount of heat without increasing the metal consumption of the structure and the use of expensive materials.

Claims (1)

SUMMER SHOWER HEATING PANEL, comprising a heat exchanger combined with a heat accumulator having a phase transition material and a top cover transparent to sunlight, characterized in that the battery is double-layer, the outer layer of which is made in the form of a housing, has a thermal conductivity lower than the thermal conductivity of the inner layer, and includes the following components, wt.%:
Epoxy resin ED-16 or ED-20 with hardener 10 - 25
PEG-115 polyethylene glycol 10 - 30
Perlite 5 - 10
Brown Wax Else
and the inner layer includes the following components, wt.%:
Epoxy resin ED-16 or ED-20 with hardener 10 - 20
Polyethylene glycol PEG-115 20 - 25
Aluminum powder 10 - 15
Brown Wax Else

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