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Open-type bidirectional thermodynamic cycle and second-class thermally-driven compression heat pump

A compression heat pump and thermodynamic cycle technology, which is applied in the direction of irreversible cycle compression machines, compressors, fluid circulation arrangements, etc., can solve the problems of inability to convert heat energy, application fields and application range limitations, etc.

Active Publication Date: 2016-08-17
李华玉
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] The heat energy (temperature difference) utilization technology represented by absorption heat pump technology uses the temperature difference between the heat load and the cold environment to increase the temperature of part of the heat load; however, due to the nature of the working medium (solution and refrigerant medium), It is also impossible to realize the conversion of thermal energy to mechanical energy while supplying heat, and its application field and application range are greatly limited.

Method used

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  • Open-type bidirectional thermodynamic cycle and second-class thermally-driven compression heat pump
  • Open-type bidirectional thermodynamic cycle and second-class thermally-driven compression heat pump
  • Open-type bidirectional thermodynamic cycle and second-class thermally-driven compression heat pump

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Embodiment Construction

[0052] The first thing to explain is that in the expression of the structure and process, it will not be repeated if it is not necessary; the obvious process will not be expressed. The present invention will be described in detail below in conjunction with the accompanying drawings and examples.

[0053] figure 1 The examples of the open bidirectional thermodynamic cycle process in the T-s diagram shown are as follows:

[0054] Example ① consists of a reversible adiabatic expansion process 12, a constant pressure exothermic process 23, a reversible adiabatic compression process 34, a constant pressure endothermic process 45, and a reversible adiabatic compression process 56, a total of 5 sequential processes.

[0055] Example ② consists of a reversible adiabatic expansion process 12, a constant temperature exothermic process 23, a reversible adiabatic compression process 34, a constant temperature endothermic process 45, and a reversible adiabatic compression process 56, a to...

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Abstract

The invention provides an open-type bidirectional thermodynamic cycle and a second-class thermally-driven compression heat pump belonging to the technical fields of heat energy utilization and heat pumps. The open-type bidirectional thermodynamic cycle is formed by a process 12 of heated medium pressure reduction beginning from a high temperature, a process 23 of releasing heat towards a low-temperature heat source, a process 34 of pressure rise beginning from a low temperature, a process 45 of absorbing heat from a medium-temperature heat source and a process 56 of pressure rise beginning from a medium temperature. The outside communicates with an expansion machine by virtue of a heated medium channel; the expansion machine communicates with a compressor through a cooler by virtue of a heated medium channel; the compressor communicates with a second compressor through a heat exchanger by virtue of a heated medium channel; the second compressor communicates with the outside by virtue of a heated medium channel; the cooler communicates with the outside by virtue of a cooling medium channel; the heat exchanger communicates with the outside by virtue of a medium-temperature heat medium channelA heated medium channel which communicates with an expansion machine is arranged at the outside; the expansion machine is provided with a heated medium channel which communicates with a compressor through a cooler; the compressor is provided with a heated medium channel which communicates with a second compressor through a heat exchanger; the second compressor is provided with a heated medium channel which communicates with the outside; the cooler is provided with a cooling medium channel which communicates with the outside; the heat supply device is provided with a heated medium channel which communicates with the outside; the heat exchanger is internally provided with a medium-temperature heat medium channel which communicates with the outside; and the expansion machine is connected with the compressor and the second compressor and is used for transmitting power, so that the second-class thermally-driven compression heat pump is formed.

Description

Technical field: [0001] The invention belongs to the technical field of power, heat supply and heat pump. Background technique: [0002] Heat demand and power demand are common in human life and production. The higher the temperature of thermal energy, the higher the possibility of its utilization and the more convenient it is to utilize. In reality, for the heat load with lower temperature, people need to adopt the necessary technology to raise its temperature. In the process of achieving the above goals, there will be many considerations or constraints, including the type, grade and quantity of energy, the type, grade and quantity of user needs, ambient temperature, type of working medium, equipment flow, structure and Manufacturing costs and more. [0003] The heat energy (temperature difference) utilization technology represented by absorption heat pump technology uses the temperature difference between the heat load and the cold environment to increase the temperatur...

Claims

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Application Information

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IPC IPC(8): F25B9/06F25B1/10F25B41/00F25B41/40
CPCF25B1/10F25B9/06F25B41/00
Inventor 李华玉
Owner 李华玉
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