Fuel gas heat energy power system based on multilevel pressurizing condensation

A power system and gas technology, applied in steam/steam condensers, electrical components, indirect heat exchangers, etc., can solve the problems of large thermal energy waste, low external waste heat absorption rate, low thermal energy conversion efficiency, etc., to reduce thermal energy. The effect of waste and cooling energy consumption, improving gasification efficiency and condensation efficiency, stabilizing gasification temperature and working fluid flow rate

Inactive Publication Date: 2017-02-22
郭远军
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  • Abstract
  • Description
  • 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 p

Method used

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  • Fuel gas heat energy power system based on multilevel pressurizing condensation
  • Fuel gas heat energy power system based on multilevel pressurizing condensation
  • Fuel gas heat energy power system based on multilevel pressurizing condensation

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0078] Embodiment one (such as figure 1 Shown): a gas thermal power system based on multi-stage pressurized condensation, including a heat collector 1, a gasification device 2, a turbine 3, a gas heating furnace 4, a condensation device 5, a circulation pipeline 6, and a circulation medium 7 And the one-way hydraulic pump 9, the gasification device 2, the turbine 3, the condensing device 5 and the one-way hydraulic pump 9 realize the circulation communication through the circulation pipeline 6 in sequence. Outside the gasification device 2, it is used for gasification heating of the working fluid in the gasification device 2;

[0079] (like figure 2 As shown), the gas heating furnace 4 includes a gas inlet 41, an air inlet 42, a mixed gas combustion chamber 43 and an igniter 44, the hot gas outlet of the mixed gas combustion chamber 43 is connected to the heat collector 1, and the gas inlet 41 and the air inlet 42 are both A flow rate regulator 45 is provided;

[0080] (li...

Embodiment 2

[0089] Embodiment two (such as Image 6 Shown): The difference from Embodiment 1 is that the heat collecting device 1 includes an upper cover 11 and a lower cover 12, a heating port 13 is provided in the middle of the lower cover 12, and the upper cover 11 and the lower cover 12 are respectively located on the upper and lower sides. Between 11 and the lower cover 12 is a heat collecting chamber 14, two layers of upper cover protruding rings 111 are distributed on the lower part of the upper cover 11 of the heat collecting device 1, and two layers of lower cover protruding rings 121 are distributed on the upper part of the lower cover 12 of the heat collecting device 1, The protruding ring 111 of the upper cover and the protruding ring 121 of the lower cover are staggered.

[0090] By conducting experiments on the gas thermal power system based on multi-stage pressurized condensation in the above-mentioned embodiment 2, gas is introduced into the gas heating furnace 4, and the...

Embodiment 3

[0091] Embodiment three (such as Figure 7 Shown): The difference from Embodiment 1 is that the lower part of the upper cover 11 of the heat collecting device 1 is provided with a three-layer upper cover protruding ring 111, and the upper part of the lower cover 12 of the heat collecting device 1 is distributed with a three-layer lower cover protruding ring 121 , the upper cover protruding ring 111 and the lower cover protruding ring 121 are staggered.

[0092] By conducting experiments on the gas thermal power system based on multi-stage pressurized condensation in the above-mentioned embodiment three, gas is introduced into the gas heating furnace 4, and the combustion temperatures in the gas heating furnace 4 are 120°C, 150°C, and 200°C respectively. °C, 250 °C, 300 °C, 400 °C, the flow rate of the working medium in the circulation pipe is adjusted according to the operation stability of the gas thermal energy power system based on multi-stage pressurized condensation; the...

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Abstract

The invention discloses a fuel gas heat energy power system based on multilevel pressurizing condensation. The fuel gas heat energy power system comprises a gasification device, a turbine, a condensing unit and a one-way hydraulic pump which circularly communicate with one another sequentially through circulating pipelines. The circulating pipelines internally contain a circulating working medium. A heat collection device is installed outside the gasification device and communicates with a fuel gas heat supplying furnace. The fuel gas heat supplying furnace comprises a fuel gas inlet, an air inlet, a mixed gas combustion chamber and an igniter. The condensing unit comprises a condenser pipe, a heat dissipation fan and a plurality of pressurizing mechanisms. The heat dissipation fan is installed above or below the condenser pipe, and the pressurizing mechanisms are evenly distributed in the middle portion of the condenser pipe in a step-by-step manner. The fuel gas heat energy power system based on multilevel pressurizing condensation has a high condensing rate, can reduce the condensing exhaust energy and 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 gas thermal energy power system based on multi-stage pressurized condensation. 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, diversified development, rely on ...

Claims

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Application Information

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IPC IPC(8): F01K11/00F01K25/10F01K25/08F01C1/344H02N11/00F28B5/00F28D1/02B01D1/00B01D1/16
CPCF01K11/00B01D1/00B01D1/16F01C1/344F01K25/08F01K25/10F28B5/00F28D1/0206H02N11/002
Inventor 郭远军
Owner 郭远军
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