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Photoelectric complementary superconductivity heating system

A heating system and superconducting technology, applied in the field of solar energy utilization, can solve the problems of low thermal energy conversion rate and utilization rate, large water consumption, and not widely used

Inactive Publication Date: 2009-03-11
刘宏伟
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0002] At present, winter heating in northern my country usually uses heating devices with water as the heat medium, and most of them use coal to heat water for heating. Coal is still the most important energy source for heating in northern my country so far. People are gradually turning their attention to the inexhaustible and inexhaustible energy source of environmental protection - solar energy, while solar energy is widely used in the field of aerospace, as civilian solar devices are mostly limited to water heaters, solar energy is not widely used as an energy source for heating systems In general, the main reason is that the northern regions cannot absorb solar energy at night or on cloudy days. In order to overcome this problem, auxiliary heaters for solar heating devices have appeared. At night or when there is no sun on cloudy days, auxiliary heaters are used to replace solar energy. Heating, the patent 200510009934.2 has disclosed this technology, but the defect of this technology is that the water consumption is large, and when the auxiliary heater is used for heating, it is necessary to heat dozens of liters of water used for solar heating, resulting in the loss of heat energy and the conversion of heat energy Low rates and utilization

Method used

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  • Photoelectric complementary superconductivity heating system
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Effect test

Embodiment 1

[0027] Such as figure 1 As shown, the photoelectric complementary superconducting heating system includes a solar thermal insulation bucket (1), a superconducting radiator (2), a miniature water tank (4), an auxiliary heater (3), pipelines and valves; the outlet of the solar thermal insulation bucket (1) end is connected with the inlet end of the superconducting radiator (2) with a pipeline, and the outlet end of the superconducting radiator (2) is connected with the inlet end of the solar thermal insulation bucket (1) with a pipeline, and on the pipeline at the inlet end of the solar thermal insulation bucket (1) Valve 1 (5) is set, and valve 2 (6) is set on the pipeline at the outlet end of the solar thermal insulation barrel (1), and the two ends of the miniature water tank (4) are connected with the two ends of the superconducting radiator (2) with a pipeline and valve 3 is set (7), auxiliary heater (3) is set in the miniature water tank (4).

[0028] The photoelectric co...

Embodiment 2

[0033] Such as figure 2 As shown, the photoelectric complementary superconducting heating system includes a solar thermal insulation barrel (1), a miniature water tank (4), an auxiliary heater (3), a circulation pump (8), a superconducting radiator (2), pipes and valves; The outlet end of barrel (1) is connected with the inlet end of miniature water tank (4) with pipeline, and auxiliary heater (3) is arranged in miniature water tank (4), and the outlet end of miniature water tank (4) is connected with superconducting radiator (2) The inlet end of the tube is connected with a pipeline, and a circulation pump (8) is arranged on the pipeline between the miniature water tank (4) and the superconducting radiator (2), and the outlet port of the superconducting radiator (2) is connected with the solar insulation barrel (1) The inlet end is connected with a pipeline, a valve 1 (5) is set on the pipeline at the inlet end of the solar thermal insulation bucket (1), a valve 2 (6) is set...

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Abstract

The invention discloses a photoelectric complementary superconductive heating system, which comprises a solar heat preserving barrel, a superconductive heating plate, an auxiliary heater, a minitype water tank, a circulating pump, pipelines and valves; the auxiliary heater is arranged inside the minitype water tank, a valve 1 is arranged on the pipeline at an inlet end of the solar heat preserving barrel, a valve 2 is arranged on the pipeline at an outlet end of the solar heat preserving barrel, and a valve 3 is arranged at two ends of the minitype water tank and two ends of a radiator which are connected by the pipeline; the valve 1 and the valve 2 are opened, the valve 3 is closed and the circulating pump is started in sunshine, while the valve 3 is opened, the valve 1 and the valve 2 are closed, and the auxiliary heater inside the minitype water tank and the circulating pump are started without sunshine. The heating system saves water and energy, and a small amount of water inside the minitype water tank is heated without sunshine so as to form circulation to drive the superconductive heating plate to raise temperature, thus ensuring heat energy nonloss and improving heat energy conversion rate and utilization rate.

Description

technical field [0001] The invention relates to the technical field of solar energy utilization, in particular to a photoelectric complementary superconducting heating system utilizing solar energy. Background technique [0002] At present, winter heating in northern my country usually uses heating devices with water as the heat medium, and most of them use coal to heat water for heating. Coal is still the most important energy source for heating in northern my country so far. People are gradually turning their attention to the inexhaustible and inexhaustible energy source of environmental protection - solar energy, while solar energy is widely used in the field of aerospace, as civilian solar devices are mostly limited to water heaters, solar energy is not widely used as an energy source for heating systems In general, the main reason is that the northern regions cannot absorb solar energy at night or on cloudy days. In order to overcome this problem, auxiliary heaters for so...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24D15/02F24J2/00F24H1/18
CPCY02B30/12Y02E10/40
Inventor 刘宏伟
Owner 刘宏伟