Double-working-medium organic Rankine cycle power generation system and control method thereof
A Rankine cycle and power generation system technology, which is applied in the direction of machines/engines, mechanical equipment, steam engine devices, etc., can solve the problems of low matching degree of heat source, low heat absorption, and low output power of the system, so as to improve the matching degree of heat source, The effect of increasing heat absorption and increasing output power
Active Publication Date: 2020-07-28
高冠怡
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Problems solved by technology
Due to the linear change of the single-phase heat source and the nonlinear change of the heat absorption process of the circulating working fluid, the heat transfer narrow point of the organic Rankine cycle generally occurs at the bubble point of the working medium, resulting in a low matching degree of the system heat source and a low heat absorption. low power output
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[0017] A diplex organic Rankine cycle power generation system, such as figure 1 As shown, the system has a preheater 4, a first evaporator 5, a first expander 1, a first condenser 2, a first working medium pump 3, a second evaporator 9, a flash tank 10, a second expansion Machine 6, ejector 11, second condenser 7, second working medium pump 8.
[0018] The specific connection and working process of the system are as follows: the organic Rankine cycle is composed of the preheater 4, the first evaporator 5, the first expander 1, the first condenser 2, and the first working medium pump 3; the second evaporator 9 , flash tank 10, second expander 6, ejector 11, second condenser 7, and second working medium pump 8 constitute a flash cycle. The organic Rankine cycle uses a circulating working fluid with a high critical temperature, and the flash cycle uses a circulating working fluid with a low critical temperature. The heat source water enters the first evaporator 5 first, and is ...
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The invention discloses a double-working-medium organic Rankine cycle power generation system, and belongs to the technical field of medium-low temperature heat source power generation. On the basis of a conventional organic Rankine cycle, a flash evaporation cycle which is provided with an ejector and uses a working medium with a low critical temperature is additionally arranged; the organic Rankine cycle uses a working medium with a high critical temperature, and the flash evaporation cycle uses the working medium with a low critical temperature; a circulation loop of the organic Rankine cycle is composed of a preheater, a first evaporator, a first expansion machine, a first condenser and a first working medium pump; a circulation loop of the flash evaporation cycle is composed of a second evaporator, a flash evaporation tank, a second expansion machine, an ejector, a second condenser and a second working medium pump. According to the double-working-medium organic Rankine cycle powergeneration system, the heat source at an outlet of the first evaporator is shunted and enters the preheater and the second evaporator respectively, two cycles are heated simultaneously, and the massflow of the working medium heated by the low-temperature part of the heat source is increased, so that the matching degree of the heat source is improved, the heat absorption amount of the system is increased, and the output work of the system is increased.
Description
technical field [0001] The invention belongs to the technical field of medium and low temperature heat source power generation, and in particular relates to a duplex organic Rankine cycle power generation system and a control method thereof. Background technique [0002] Organic Rankine cycle is one of the effective means to recover waste heat. Due to the linear change of the single-phase heat source and the nonlinear change of the heat absorption process of the circulating working fluid, the heat transfer narrow point of the organic Rankine cycle generally occurs at the bubble point of the working medium, resulting in a low matching degree of the system heat source and a low heat absorption. The output power is lower. Therefore, improving the heat source matching degree of the system, reducing the outlet temperature of the heat source, and increasing the heat absorption of the system can effectively increase the output work of the system. On the basis of improving the hea...
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IPC IPC(8): F01K25/10F01K25/00F01K11/00F01K13/02
CPCF01K25/10F01K25/00F01K11/00F01K13/02
Inventor 高冠怡吴晓松
Owner 高冠怡
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