Finned-tube convection superconductive heat radiator
A finned tube and radiator technology, which is applied in the field of finned tube convection superconducting heat sinks, can solve the problems of low utilization rate of heat energy, slow heat dissipation, easy corrosion and scaling of the radiator, etc., and achieves high utilization rate of heat energy, Fast cooling effect
Inactive Publication Date: 2010-09-15
HENAN JUFENG BIO ENERGY DEV
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Problems solved by technology
As a result, the load of the heating system is large, the cost of existence is high, the utilization rate of heat energy is low, and the energy consumption is large
Air resistance often occurs in the system, and the radiator is not only easy to corrode and scale, and has slow heat dissipation, but also needs maintenance all year round, which has formed an obstacle to the country's promotion of energy conservation and emission reduction
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[0021] Such as figure 1 , 2 , 3, 4, 5, 6, 7, 8, and 9, a finned tube convective superconducting heat radiator includes a shell 7 with a hot air outlet 8, and a lower horizontal tube 11 is installed inside the shell 7, The hot water independent circulation pipe 6 is installed inside the lower horizontal square pipe 11, and the left vertical pipe 1, the middle vertical pipe 13 and the right vertical pipe 14 connected with the lower horizontal square pipe 11 are welded on the lower horizontal square pipe 11, and the left vertical pipe 1 communicates with the middle standpipe 13 through the left finned tube group 3, and the middle standpipe 13 communicates with the right standpipe 14 through the right finned tube group 10.
[0022] Such as figure 1 , 2 As shown, the lower horizontal square pipe 11 communicates with the left standpipe 1, the middle standpipe 13 and the right standpipe 14 to form a negative pressure chamber 12, and the negative pressure chamber 12 is filled with ...
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The technology of the invention relates to the technical field of heat conduction, in particular to a finned-tube convection superconductive heat radiator which uses inorganic heat-conducting media to carry out high-speed heat conversion. The radiator comprises a shell provided with a hot air outlet, wherein a lower horizontal square tube is installed in the shell, a hot water independently-circulating pipe is installed in the lower horizontal square tube, a left vertical tube, a middle vertical tube and a right vertical tube of which the bottoms are communicated with the lower horizontal square tube are welded on the lower horizontal square tube, the left vertical tube is communicated with the middle vertical tube by a left finned tube group, and the middle vertical tube is communicated with the right vertical tube by a right finned tube group; the lower horizontal square tube is communicated with the left vertical tube, the middle vertical tube and the right vertical tube to form a negative pressure cavity, and the negative pressure cavity is filled with heat-conducting media formed by mixing potassium dichromate, sodium perborate, aluminum hydroxide, sodium peroxide, boric acid, manganese peroxide and cobaltic oxide. The radiator adopts the thermal fluid design, thereby realizing high heat utilization efficiency; and the radiator adopts the heat-conducting media, thereby achieving the advantages of fast heat radiation, energy saving and environmental friendliness.
Description
technical field [0001] The technology of the invention relates to the field of heat conduction science and technology, in particular to a finned tube convective superconducting heat radiator using an inorganic heat conducting medium for high-speed heat conversion. Background technique [0002] At present, the heating in winter in the Chinese market mostly uses radiators with water as the heat transfer medium, and the water circulates under pressure. Most of the radiators used in the market are welded by sheet-shaped or special-shaped heat sinks. The upper water inlet is connected to the water outlet, and the lower drain pipe passes through the radiator to discharge the low-temperature water, and then circulates the discharged low-temperature water to the heating system. heating in the system. Recirculation to the radiator for heat dissipation, the inner cavity of the heat dissipation pipe is full of water, the consumption is large, and the indoor temperature rises slowly. ...
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Login to View More IPC IPC(8): F28D1/053F28F1/12F24D19/00
Inventor 高海华苏树森岳月华蒋矩乐
Owner HENAN JUFENG BIO ENERGY DEV