CN103296933A - Solar heat power generation device utilizing Internet of Things - Google Patents

Abstract

The invention provides a solar heat power generation device utilizing Internet of Things. The solar heat power generation device is characterized by comprising a vacuum pipe, a copper superconducting pipe, a water tank, a support, a semiconductor thermoelectric power generation piece, a needle radiator, a liquid heat conduction cavity and a network control panel. By the modification utilizing common solar energy, low cost is achieved, hot water can store heat to realize energy storage, and heat conducting liquid is control by the network control panel to realize on and off of power generation. The solar heat power generation device is suitable for self-use power generation of small- and medium-sized industrial enterprises.

Description

A kind of Internet of Things solar thermal power plants

Technical field

The present invention relates to a kind of generating heat and be equipped with, especially solar thermal power plants.

Background technology

Present solar energy heating generating then is the speculum by One's name is legion, direct light focused acquisition with the sun, by adding hot water or other working medias, be heat energy with conversion of solar energy, utilize the process the same with traditional thermodynamic cycle then, the steam that namely forms high pressure-temperature comes the work of pushing turbine generating set, and heat energy transforms into electric energy the most at last.By such link, the solar energy heating generation technology can successfully integrate with traditional thermoelectricity generation technology just.Because the thermoelectricity generation technology is very ripe already, thereby reduced the risk of solar energy heating power generation entire technological development.The more important thing is, utilize the form of heat energy power-generating also to make CSP have special advantages aspect energy storage and the cogeneration, is the basic foundation of realizing uninterruptable power generation in round-the-clock 24 hours in the future.

Four kinds of main solar energy heating generation modes: at present, Chang Yong a kind of mode classification relatively, be according to the difference to the acquisition mode of solar energy, mainly can be divided into slot type, Fresnel formula, tower and Stirling (dish formula) electricity generation system to the solar energy heating generating.The capital equipment of slot type is: the concentrator of parabolic (parabolic) trough type (trough), endothermic tube, thermal storage device, hot charging exchange device, turbo generator, converting equipment etc.The Fresnel system is exactly the slot type system of having simplified, and the Fresnel system is exactly the curved mirror focusing that replaces parabolic shape in the slot type system with one group of dull and stereotyped mirror in fact.By adjusting the angle of inclination of control plane mirror, sunlight reflected in thermal-collecting tube, is realized focusing on heating.For the simplification system, generally adopt water/steam as heat-absorbing medium (oil and fused-salt medium also are feasible technically).Than the curved mirror of parabolic formula, the plane mirror manufacture difficulty is low, therefore greatly reduce the initial outlay cost, but focusing accuracy is than slot type difference.Tower: heliostat, thermal-arrest tower, heat accumulation, turbo generator, converting equipment etc.

But all to be large tracts of land scale space use for these, and need enterprise's roof area of electric power little, but the vacancy rate height, so these technology can not satisfy the heat generating needs on small business roof at present.

Summary of the invention

The invention provides the miniaturization of a kind of energy, the solar thermal power plants of stabilisation.

The present invention is achieved through the following technical solutions:

A kind of Internet of Things solar thermal power plants, it is characterized in that by vacuum tube, the copper superconducting pipe, water tank, support, the semiconductor temperature differential generating sheet, the pin type radiator, the liquid thermal conductivity chamber, the network control plate is formed, the copper superconducting pipe is located in the vacuum tube, closed at both ends, vacuumize earlier, inject small amounts of propane then, the copper superconducting pipe is connected with water tank, and with silica gel circle sealing, the water tank skin has heat-insulation layer, and the semiconductor temperature differential generating sheet is arranged at the top, bond with heat conductive silica gel with inner water tank, skin has the pin type radiator, is the liquid thermal conductivity chamber between pin type radiator and the semiconductor temperature differential generating sheet, by extraction and the injection of network control plate input signal to heat-conducting liquid.

Progressive effect of the present invention is: user's regular solar is transformed, and can realize that cost is low, and hot water can store heat, realizes that energy stores; By network control plate control heat-conducting liquid, thereby realize closing down of generating.

Description of drawings

Accompanying drawing is schematic diagram of the present invention.

Wherein: 1, the pin type radiator; 2, the liquid thermal conductivity chamber; 3, the semiconductor temperature differential generating sheet; 4, water tank; 5, the copper superconducting pipe; 6, support; 7, vacuum tube.

Embodiment

The present invention will be further described below in conjunction with accompanying drawing: the Internet of Things solar thermal power plants, vacuum tube 7, copper superconducting pipe 5, water tank 4, support 6, semiconductor temperature differential generating sheet 3, pin type radiator 1, liquid thermal conductivity chamber 2, the network control plate is formed, copper superconducting pipe 5 is located in the vacuum tube 7, closed at both ends, vacuumize earlier, inject small amounts of propane then, copper superconducting pipe 5 is connected with water tank 4, and seal with the silica gel circle, the water tank skin has heat-insulation layer, semiconductor temperature differential generating sheet 3 is arranged at the top, bond with heat conductive silica gel with water tank 4 inner bags, skin has pin type radiator 1, is liquid thermal conductivity chamber 2 between pin type radiator 1 and the semiconductor temperature differential generating sheet 3, by extraction and the injection of network control plate input signal to heat-conducting liquid.

Water in the prioritization scheme one, water tank, mixing ethylene glycol is 30% concentration to mass ratio, like this can be antifreeze.

Prioritization scheme two, the network control plate can read the temperature difference of water tank and pin type radiator, with deduct 50 the degree be heat storage capacity, multiply by semiconductor temperature differential generating sheet generating efficiency and can draw storage electric power, and be shown to and transfer out the swap center in the system, the output swap center to many combinations and rational allocation just comprehensively big capacity generate electricity.

Adopt Internet of Things solar thermal power plants of the present invention, can improve generating dutation and instantaneous power, it is personal to be fit to middle-size and small-size industrial enterprise self generating.

Claims (3)

1. Internet of Things solar thermal power plants, it is characterized in that by vacuum tube, the copper superconducting pipe, water tank, support, the semiconductor temperature differential generating sheet, the pin type radiator, the liquid thermal conductivity chamber, the network control plate is formed, the copper superconducting pipe is located in the vacuum tube, closed at both ends, vacuumize earlier, inject small amounts of propane then, the copper superconducting pipe is connected with water tank, and with silica gel circle sealing, the water tank skin has heat-insulation layer, and the semiconductor temperature differential generating sheet is arranged at the top, bond with heat conductive silica gel with inner water tank, skin has the pin type radiator, is the liquid thermal conductivity chamber between pin type radiator and the semiconductor temperature differential generating sheet, by extraction and the injection of network control plate input signal to heat-conducting liquid.

2. Internet of Things solar thermal power plants according to claim 1 is characterized in that the water in the water tank, and mixing ethylene glycol is 30% concentration to mass ratio.

3. Internet of Things air-conditioning according to claim 1 is characterized in that the network control plate can read the temperature difference of water tank and pin type radiator, is heat storage capacity to deduct 50 degree, multiply by semiconductor temperature differential generating sheet generating efficiency and can draw storage electric power.

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