CN102758751A - Temperature difference generating system - Google Patents

Abstract

The invention relates to a temperature difference generating system designed according to a refrigeration principle. According to the temperature difference generating system, evaporated liquid in an evaporator absorbs heat and is evaporated, steam generates kinetic energy when flowing through a pipeline upwards and entering a condenser, the steam enters the condenser and then releases heat and is condensed to form condensed liquid which has potential energy relative to the liquid surface of the evaporated liquid, and the condensed liquid generates kinetic energy when flowing back to the evaporator through a bypass pipe. The condensed liquid drives a turbine generator on the bypass pipe to operate for power generation; or the steam drives a turbine generator on a pipeline to operate for power generation; or the condensed liquid and the steam respectively drive the turbine generator on the bypass pipe and the turbine generator on the pipeline to operate for power generation. The temperature difference generation system disclosed by the invention is used for power generation by using natural temperature difference between altitudes, between day and night and between the yin side and the yang side of an object and temperature difference generated by solar energy and other heat sources.

Description

Thermo-electric generation system

Technical field

Native system relates to the energy, relates to thermo-electric generation system more precisely.

Background technique

The mainly still thermal power generation of the electric energy of people's acquisition at present, this generation mode seriously destroys the environment that we depend on for existence, disposable energy resources such as the coal of consume valuable.Do not meet the theory of environmental friendliness, sustainable development.

Summary of the invention

Thermo-electric generation system of the present invention is to design according to refrigeration principle.

Evaporated liquor heat absorption evaporation in the vaporizer of thermo-electric generation system of the present invention; Steam produces kinetic energy when being advanced in the condenser on the pipeline; Steam gets into the interior heat release of condenser and is condensed into the condensed fluid that has potential energy with respect to the liquid level of evaporated liquor, produces kinetic energy when condensed fluid flows back in the vaporizer through bypass.

Drive the turbogenerator operation generating that is located on the bypass by condensed fluid; Or the turbogenerator that is located on the pipeline by steam driven moves generating; Or drive the turbogenerator that is located on the bypass and the turbogenerator operation generating that is located on the pipeline respectively by condensed fluid and steam.

The present invention because of between the altitude capable of using, between daytime, between the male and female face of object, thermo-electric generation that solar energy and other thermal source produced.Be do not consume traditional disposable energy, pollution-free, simple in structure, can change into high-quality electric energy power generation system to low-grade low-density heat energy, be adapted at All Ranges and build.

Description of drawings

Fig. 1: the thermo-electric generation system schematic diagram that turbogenerator all is installed on pipeline and the bypass;

Fig. 2: have only the thermo-electric generation system schematic diagram that turbogenerator is installed on the bypass;

Fig. 3: have only the thermo-electric generation system schematic diagram that turbogenerator is installed on the pipeline;

Fig. 4: the wick in the vaporizer of thermo-electric generation system;

Fig. 5: by the schematic diagram of heat pipe to the vaporizer heat supply of thermo-electric generation system;

Fig. 6: by the schematic diagram of solar energy heat distribution system to the vaporizer heat supply of thermo-electric generation system;

Fig. 7: by heat pipe and solar energy heat distribution system jointly to the schematic diagram of the vaporizer heat supply of thermo-electric generation system.

Embodiment

The set accompanying drawing utilizes system to make specific descriptions to the temperature difference of the present invention below:

The temperature difference of the present invention utilizes system the time to have two kinds of energy produce in operation: the kinetic energy of generation when a kind of condensed fluid that is the steam liquid level with respect to evaporated liquor that the heat release condensation obtains condenser 2 in has potential energy flows back in the vaporizer 1; Another kind be steam in the vaporizer 1 under the effect of pressure reduction, the kinetic energy that produces when being advanced in the condenser 2 on the pipeline 3.

This thermo-electric generation system; Comprise: vaporizer 1, condenser 2, pipeline 3, bypass 4, turbogenerator 5, turbogenerator 6, valve 9 and wick (11); Be provided with wick 11 in the said vaporizer 1 and be used to increase evaporation area, the condensed fluid in raising evaporation rate, the increase condenser 2 is with respect to the potential energy of evaporated liquor liquid level; Pipeline 3 is equipped with the thermal insulation layer insulation with bypass 4; Pipeline 3 is the steam rising passway; Bypass 4 is the fluid decline passway; Connect into closed loop to vaporizer 1 and condenser 2 and the back injection evaporated liquor that is evacuated with pipeline 3 and bypass 4, condenser 2 is located at the top of vaporizer 1, and valve 9 is located at and is used to control the flow through the fluid of bypass 4 on the bypass 4;

During the thermo-electric generation system operation, the evaporated liquor in the vaporizer 1 absorbs the environment's heat evaporation, and through being advanced into heat release condensation in the condenser 2 on the pipeline 3, the condensed fluid that obtains has potential energy with respect to the liquid level of evaporated liquor to the steam of generation under the effect of pressure reduction; Condensed fluid in the condenser 2 flows back to heat absorption evaporation once more in the vaporizer 1 through bypass 4, accomplishes the flow circuit of a thermodynamic cycle and working medium.

Invent thermo-electric generation system or turbogenerator 5 is installed on bypass 4 for this, generate electricity by condensed fluid driving turbogenerator 5 operations of flowing back to through bypass 4 in the vaporizer 1; Or turbogenerator 6 is installed on pipeline 3, by generating electricity through pipeline 3 up steam driven turbogenerator 6 operations; Or on installation turbogenerator 5, the pipeline 3 turbogenerator 6 is being installed on the bypass 4 respectively, move generating by flowing back to the condensed fluid in the vaporizer 1 through bypass 4 and driving turbogenerator 5 respectively with turbogenerator 6 through the steam that pipeline 3 rises.

Thermo-electric generation system of the present invention can be directly with being higher than vaporizer 1 heat supply of the fluid of condensing temperature to said thermo-electric generation system; Or the solar energy heat distribution system that is made up of solar thermal collector 8 and heat exchanger 12 and fluid heat-conducting medium is to the thermo-electric generation system heat supply, and the solar energy that solar thermal collector 8 absorbs carries out the heat exchange heat supply through the evaporated liquor in the vaporizer 1 of heat exchanger 12 and said thermo-electric generation system; Or on the vaporizer 1 of said thermo-electric generation system, establish heat pipe 10, by vaporizer 1 heat supply of heat pipe 10 to thermo-electric generation system; Or be provided with solar energy heat distribution system and heat pipe 10 simultaneously jointly to the vaporizer heat supplies of thermo-electric generation system, when using solar energy heat distribution system or heat pipe, vaporizer 1 is incubated makes its thermal insulation the thermo-electric generation system heat supply.

Claims (4)

1. thermo-electric generation system; Comprise: vaporizer (1), condenser (2), pipeline (3), bypass (4), turbogenerator (5), turbogenerator (6), valve (9) and wick (11); It is characterized in that: in said vaporizer (1), establish wick (11); Be used to increase evaporation area, improve evaporation rate, and increase the potential energy of the interior condensed fluid of condenser (2) with respect to the evaporated liquor liquid level; Said pipeline (3) and bypass (4) are equipped with the thermal insulation layer insulation, and pipeline (3) is the steam rising passway, and bypass (4) is the fluid decline passway; Valve (9) is located on the bypass (4), is used for the flow of control through the fluid of bypass (4); Condenser (2) is located at the top of vaporizer (1); Connect into vaporizer (1) and condenser (2) closed loop and be evacuated back injection evaporated liquor with pipeline (3) and bypass (4);

During the thermo-electric generation system operation; Evaporated liquor in the vaporizer (1) absorbs the environment's heat evaporation; The steam that produces under the effect of pressure reduction through being advanced into heat release condensation in the condenser (2) on the pipeline (3); The gained condensed fluid has potential energy with respect to the liquid level of evaporated liquor, and the condensed fluid in the condenser (2) flows back to heat absorption evaporation once more in the vaporizer (1) through bypass (4), the thermodynamic cycle of completion working medium and the flow circuit of working medium;

In bypass (4) turbogenerator (5) go up to be installed, the condensed fluid in the condenser (2) flows back to vaporizer (1) through bypass (4) and drives turbogenerator (5) when interior and move and generate electricity; Or turbogenerator (6) go up to be installed at pipeline (3), the steam in the vaporizer (1) drives turbogenerator (6) when interior and moves and generate electricity through being advanced into condenser (2) on the pipeline (3); Or turbogenerator (5) and turbogenerator (6) are installed respectively on bypass (4) and pipeline (3), generate electricity, generate electricity through condensed fluid driving turbogenerator (5) operation of bypass (4) through steam driven turbogenerator (6) operation of pipeline (3).

2. according to the said thermo-electric generation system of claim 1; It is characterized in that: said thermo-electric generation system is provided with solar energy heat distribution system; Said solar energy heat distribution system is that the solar energy that solar thermal collector (8) is absorbed carries out heat exchange through heat exchanger (12) and the interior evaporated liquor of vaporizer (1) by solar thermal collector (8) and heat exchanger (12) and fluid heat transfer medium formation; Vaporizer (1) is incubated.

3. according to the said thermo-electric generation system of claim 1; It is characterized in that: said thermo-electric generation system is by heat pipe (10) heat supply; Be located in the vaporizer (1) condensation end of heat pipe (10) and the evaporated liquor in vaporizer (1) provides heat, the vaporizing end of heat pipe (10) is located at the thermal source place; Vaporizer (1) is incubated.

4. according to the said thermo-electric generation system of claim 2; It is characterized in that: the vaporizer of said thermo-electric generation system (1) increases heat pipe (10) heat supply; Be located at the condensation end of heat pipe (10) in the vaporizer (1); Vaporizing end is located at the thermal source place, by solar energy heat distribution system and heat pipe jointly the evaporated liquor in vaporizer (1) heat is provided.

Images