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Energy conversion system based on metal microporous pipeline network

An energy conversion system and a technology of microporous tubes, which are applied in the operation mode of machines, lighting and heating equipment, steam engine devices, etc., can solve the problems of energy conversion efficiency that cannot achieve expected indicators, high production costs, and low cost performance. Antifreeze problem of pipe network, ensure the qualified rate, and the effect of low cost

Active Publication Date: 2015-11-11
奉政一 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Based on the Rankine cycle thermodynamic maximum efficiency: Wmax=Q(T 1 -T 2 ) / T 1 , although there are countless inventions of waste heat power (power generation), but without the development of the most important low-temperature, low-cost heat dissipation components, the energy conversion efficiency is currently unable to achieve the expected indicators
How to solve the problems of poor comprehensive application efficiency, high production cost and low cost performance of power equipment has been widely concerned by people in the industry

Method used

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  • Energy conversion system based on metal microporous pipeline network
  • Energy conversion system based on metal microporous pipeline network
  • Energy conversion system based on metal microporous pipeline network

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Waste heat composite power ship application system.

[0037] see figure 2 As shown, the energy conversion system based on metal microporous pipe network (waste heat compound power ship application system) includes refrigerant heat exchange component 1, hydraulic pump 5, heat exchanger 6, exhaust pipe heat exchanger 7 and power turbine 8 A pipeline port of the liquid distributor 102 of the refrigerant heat exchange assembly 1 is connected to the heat exchange input port of the heat exchanger 6 through the hydraulic pump 5; the heat exchange output port of the heat exchanger 6 is connected to the power turbine The inlet of the turbine 8 is connected; the outlet of the power turbine 8 is connected to the gas distributor 103 of the refrigerant heat exchange assembly 1; the heat exchange output port of the heat exchanger 6 is connected to the exhaust pipe heat exchanger 7 and The inlets of the power turbine 8 are connected; the power turbine 8 transmits power through the t...

Embodiment 2

[0043] Air-cooled heat exchanger waste heat dual-power vehicle application system.

[0044] see image 3 As shown, the energy conversion system based on metal microporous pipe network (air-cooled heat exchanger waste heat dual-power vehicle application system) includes refrigerant heat exchange component 1, hydraulic pump 5, heat exchanger 6, exhaust pipe heat exchanger 7 and Power turbine 8; a pipeline port of the liquid distributor 102 of the refrigerant heat exchange assembly 1 is connected to the heat exchange input port of the heat exchanger 6 through the hydraulic pump 5; the heat exchange output of the heat exchanger 6 The port is connected to the inlet of the power turbine 8; the outlet of the power turbine 8 is connected to the gas distributor 103 of the refrigerant heat exchange assembly 1; the heat exchange output port of the heat exchanger 6 passes through the exhaust pipe The heat exchanger 7 is connected to the inlet of the power turbine 8; the power turbine 8 t...

Embodiment 3

[0061] Refrigerant heat transfer components Aircraft waste heat power application system.

[0062] see Figure 4 As shown, the energy conversion system based on metal microporous pipe network (refrigerant heat transfer component aircraft waste heat power application system), including refrigerant heat transfer component 1, hydraulic pump 5, heat exchanger 6, exhaust pipe heat exchanger 7 and power The turbine 8; a pipeline port of the liquid distributor 102 of the refrigerant heat exchange assembly 1 is connected to the heat exchange input port of the heat exchanger 6 through the hydraulic pump 5; the heat exchange output port of the heat exchanger 6 It is connected with the inlet of the power turbine 8; the outlet of the power turbine 8 is connected with the gas distributor 103 of the refrigerant heat exchange assembly 1; the heat exchange output port of the heat exchanger 6 is exchanged through the exhaust pipe. The heat exchanger 7 is connected to the inlet of the power tu...

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Abstract

The invention belongs to the field of energy conversion systems, and particularly relates to an energy conversion system based on a metal microporous pipeline network. The energy conversion system comprises a cold medium heat exchange assembly (1), a hydraulic pump (5), a heat exchanger (6) and a power turbine (8). A pipeline port of a liquid distributor (102) of the cold medium heat exchange assembly (1) is connected with the heat exchange input port of the heat exchanger (6) through the hydraulic pump (5). The heat exchange output port of the heat exchanger (6) is connected with the inlet of the power turbine (8). The outlet of the power turbine (8) is connected with a gas distributor (103) of the cold medium heat exchange assembly (1). The heat exchanger (6) is of a cold medium heat transfer capillary structure. The power turbine (8) transmits power outwards through a turbine output shaft (801). The energy conversion system is low in cost, high in energy efficiency ratio, high in compatibility, remarkable in energy conservation and environment protection effect and wide in application range.

Description

technical field [0001] The invention belongs to the field of energy conversion systems, in particular to an energy conversion system based on metal microporous pipe networks. The system is suitable for waste heat conversion of ships, vehicles, and aircraft vehicles, as well as building heating, cooling, power generation systems, power plant waste steam agricultural soil heating, and turbine dynamic (electric) power conversion systems. Background technique [0002] With the improvement of human living standards and the popularization of heating and cooling equipment, its carbon emissions have accounted for nearly one-third of the world's energy consumption, while power plants, ships, vehicles, and airplanes currently have a power-heat efficiency of about 33-40%, making the earth Carbon emissions are overwhelming. Based on the Rankine cycle thermodynamic maximum efficiency: Wmax=Q(T 1 -T 2 ) / T 1 , although there are countless inventions of waste heat power (power generatio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F25B29/00F01K27/02B60H1/18
CPCY02T10/88F25B29/00B60H1/18F01K27/02
Inventor 奉政一
Owner 奉政一
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