Semiconductor condensation heat energy power system utilizing thermal discharge water of nuclear power station

A technology for power systems and nuclear power plants, applied in the direction of generators/motors, steam/steam condensers, electrical components, etc., can solve the problems of small external waste heat absorption rate, temperature rise, and unstable turbine speed, etc., to achieve improved gasification Effectiveness and condensation efficiency, stable gasification temperature and working medium flow rate, and the effect of improving thermal energy conversion efficiency

Inactive Publication Date: 2016-12-21
郭远军
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0007] However, the common problems of existing thermal power generation equipment are: a. The temperature requirements for high-temperature heat sources are high, generally above 200°C, and the thermal energy conversion efficiency is low, and the thermal energy conversion efficiency is generally 15% to 35%; b. The heat displacement of the condensing device is large, and the waste of heat energy is large. The condensation speed through the natural condensation method is slow, and the active condensation method (fan air cooling or liquid pump water cooling) requires additional power consumption; c. The turbine is prone to leakage of working fluid Problems; d. Turbine speed is unstable, and it is prone to stuck problems; e. The heat collection effect of the heat collector is not good, and the external waste heat absorption rate is small; f. The gasification temperature of the working medium is unstable, and the condensation effect of the working medium is not good , the working medium is easy to deteriorate or appear impurities; g. The existing equipment is relatively large
[0009] However, the development of nuclear power has also brought great concerns to people, because the construction and use of nuclear power plants will not only cause certain radioactive pollution to the environment, but also cause high-temperature pollution to nearby waters.
Nuclear power plants need a large amount of water to cool the reactor. A nuclear power plant consumes hundreds of tons of water per second. Cold sea water or river water is discharged back into the sea after heat exchange in the plant. The temperature of the water will rise by 20 to 30 degrees. After the drain is discharged, the temperature of the water within a radius of 1 km can rise as high as 5°C to 8°C. When the temperature of cold sea water or river water reaches 30°C in summer, after absorbing the heat exhausted by the nuclear power plant, the temperature can rise by about 40°C. , the general fish and seaweed organisms cannot survive, and it also brings a greater impact of high temperature on nearby residents
[0010] As for the thermal energy in the thermal drainage of the above-mentioned nuclear power plant, since the temperature difference between the thermal drainage and normal temperature water is only about 20°C, this temperature difference is difficult to be utilized by existing thermal power generation equipment

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  • Semiconductor condensation heat energy power system utilizing thermal discharge water of nuclear power station
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  • Semiconductor condensation heat energy power system utilizing thermal discharge water of nuclear power station

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Experimental program
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Effect test

Embodiment 1

[0082] Embodiment one (such as figure 1 Shown): a semiconductor condensing thermal energy power system utilizing thermal drainage from a nuclear power plant, including a heat collector 1, a gasification device 2, a turbine 3, a nuclear power plant thermal drain 4, a condensing device 5, a circulating pipeline 6, a circulating working fluid 7 and The one-way hydraulic pump 9, the heat collecting device 1, the gasification device 2, the turbine 3, the condensing device 5 and the one-way hydraulic pump 9 realize circulation communication through the circulation pipeline 6 in sequence, and the circulation pipeline 6 contains a circulating working medium 7;

[0083] (Such as figure 2 As shown), the heat collection device 1 and the gasification device 2 are installed in the thermal drain 4 of the nuclear power plant, and the condensation device 5 is installed in the deep water low temperature area. The heat sinks 12 are distributed in parallel and at intervals, and the heat collec...

Embodiment 2

[0097] Embodiment two (such as Figure 6 shown): The difference from Embodiment 1 is that the heat collecting sheet 12 of the heat collecting device 1 is in the shape of a curved sheet.

[0098] By conducting experiments on the semiconductor condensing thermal energy power system using the thermal drainage of nuclear power plants in the above-mentioned embodiment 2, hot water of different temperatures is discharged into the heat collection device 1 and the gasification device 2, the temperature of the cold source is 10 °C, and the drainage rate is 3000L / s, the flow rate of the working medium in the circulation pipe is adjusted according to the operation stability of the semiconductor condensation heat power system using the thermal drainage of the nuclear power plant; the experimental results are: when the temperature of the hot water is about 40 °C, the heat conversion efficiency is about 6.5%, and the temperature of the hot water is At about 45°C, the thermal energy conver...

Embodiment 3

[0099] Embodiment three (such as Figure 7 shown): The difference from Embodiment 1 is that the heat collecting fins 12 of the heat collecting device 1 are distributed in a staggered manner.

[0100] By conducting experiments on the semiconductor condensing thermal energy power system using the thermal drainage of nuclear power plants in the third embodiment above, hot water of different temperatures is discharged into the heat collector 1 and the gasification device 2, the temperature of the cold source is 10 ° C, and the drainage rate is 3000 L / s, the flow rate of the working medium in the circulation pipe is adjusted according to the operation stability of the semiconductor condensation heat power system using the thermal drainage of the nuclear power plant; the experimental results are: when the temperature of the hot water is about 40 °C, the heat conversion efficiency is about 6.5%, and the temperature of the hot water is At about 45°C, the thermal energy conversion ef...

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Abstract

The invention discloses a semiconductor condensation heat energy power system utilizing thermal discharge water of a nuclear power station. The semiconductor condensation heat energy power system comprises a heat collecting device, a gasification device, a turbine, a condensation device and a one-way hydraulic pump, all of which cyclically communicate with one another through a circulation pipeline in sequence. Circulation working media are contained in the circulation pipeline. The heat collecting device and the gasification device are arranged in a thermal discharge channel of the nuclear power station. The condensation device is arranged in a deep water low temperature area. The condensation device comprises a condensation pipe and a heat dissipation fan, and the condensation pipe is made of temperature difference power generation sheets. The semiconductor condensation heat energy power system utilizing the thermal discharge water of the nuclear power station has a high condensation rate, can reduce condensation energy dissipation, improve the heat energy conversion efficiency and is stable in running and adjustable in power.

Description

technical field [0001] The invention belongs to the field of energy utilization equipment, in particular to a semiconductor condensing thermal energy power system utilizing thermal drainage of nuclear power plants. Background technique [0002] Energy is an important material basis for the survival and development of human society. Throughout the history of the development of human society, every major progress of human civilization is accompanied by the improvement and replacement of energy. The development and utilization of energy has greatly promoted the development of the world economy and human society. [0003] However, with the continuous development and consumption of energy, non-renewable energy sources such as petroleum, coal mines, and natural gas are gradually reduced, and energy conservation and recycling are gradually being valued. The basic content of my country's current energy strategy is: adhere to the priority of conservation, based on domestic, diversi...

Claims

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Application Information

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IPC IPC(8): F01K27/02F01K25/08F01K25/10F01K11/02H02N11/00F28B5/00F28D1/02B01D1/00B01D1/16
CPCF01K27/02B01D1/00B01D1/16F01K11/02F01K25/08F01K25/10F01K25/106F28B5/00F28D1/0206H02N11/002
Inventor 郭远军
Owner 郭远军
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