TH4355B - Methods and machines for enhancing the thermodynamic cycle by mutual cooling - Google Patents

Abstract

Methods and machines for enhancing the thermodynamic cycle by mutual cooling Consists of a sub-condensing system Radiators and radiator guards may include preheater, evaporator and idong heater. After the first expansion In a turbine, the fluid is brought to a reheater to raise the temperature to a thicker vapor. After the fluid has returned to the turbine And there is another expansion Then they are taken out of the turbine and cooled in the coolers. After that, the fluid will return to the turbine for further expansion. By cooling the gas from the turbine, additional heat may be provided for further expansion. Making gas at Leaving the turbine cool, additional heat may be supplied for evaporation. Mutual cooling may be supplemented for the heat used for reheating. The unused heat may be converted after the fluid has evaporated in the last turbine.

Claims (9)

1. A method for supplementing the thermodynamic cycle consists of the following steps: The expansion of the gas medium fluid to convert energy into a usable form Cooling of such expanded gaseous medium fluids The cooling fluid of the medium expands to a low pressure level. To transform energy into a usable form The condensation and evaporation of the condensed medium are evaporated using heat transferred between the cooling of the expanded gaseous medium fluid. down 2. Method according to claim 1, in which the evaporation process includes steps Of the separation of the said condensed medium into two fluid flows. The first evaporates in the evaporator and the second evaporates in the expanded gaseous medium fluid to make the expanded gaseous medium fluid as Cool down And causing the second such stream to evaporate 3. The method of claim 2 includes the procedure for heating the aforementioned condensed medium fluid before the separation of the condensed medium into two separate currents. 4. Methods of claim 1 include a procedure for the expansion of the medium fluid to obtain a low pressure level where the fluid is saturated. 5. Method according to claim 1, where the said medium is a single component medium fluid. 6. Method according to claim 1, where the aforementioned fluid includes at least two elements with different boiling points. 7.Methods of claim 3 include the process of bruising the said medium after the expansion of the gaseous medium fluid and the expansion of the said medium fluid again. After repeated heating, but not before such a cooling procedure 8.Methods of claim 7 include procedures for managing the flow of heated fluid. Where such a heated fluid is heated, there is heat for preheating the medium and heating the current one, the use of part of the heating fluid for heating The condensed and evaporated medium flasks are vapor and use part of the heating fluid for pre-heating of the gaseous medium fluid. 9.Methods of claim 8 include the procedure for the re-incorporation of such parts of the said heated fluid that is used for re-heating with the remainder of the heating fluid. As mentioned before the heated fluid is used for evaporating the condensed medium fluid 1. 0. Method according to claim 1, where the aforementioned cooling procedure includes the process of cooling the entire gas medium fluid, and after which the cooling medium fluid is expanded 1. 1. A method for enhancing the thermodynamic cycle consists of the following steps. Evaporation of the medium fluid The amplification of the aidified fluid to convert energy into a usable form. Reheating of the expanded fluid The bruising of the heated fluid expands, transforming its energy into a usable form. Cooling of such re-heated and expanded fluids The cooling fluid expands to a low pressure level. To convert energy into usable form and condense the medium flowing from the turbine. The evaporation of the condensed medium fluid using the heat transmitted from the aforementioned and expanded re-heated flow during cooling 1. 2.The method of claim 11 includes the fluid medium as a heat source for evaporation of the fluid medium and vaporization 1. 3. The method of claim 12 includes the procedure for the use of a part of the said heat source for the re-heating of the expanded fluid. Another use of the heat source of such a fluid is for fluidization. The evaporated medium is vapor, and the two streams are reused to evaporate the condensed fluid. 4. Methods of claim 11 include the procedure for preheating the aforementioned condensed medium fluid 1. 5. Methods according to claim 14 include the process of separating the aforementioned preheated fluid into two fluid flows.One such fluid current is made in the evaporator. 1 And another fluid stream is evaporated by the heat transmitted during the cooling of the repeated and expanded fluid, the reunification of the fluid stream before vaporizing the medium. 1 6.Methods of claim 15, where the aforementioned cooling procedure includes the process of cooling, bruising and expanding most of the aforementioned fluid 1. 7.Methods of claim 15, where the aforementioned cooling procedure includes the process of cooling, bruising and expanding of all such heated, bruised fluids and cooling of the fluid. Then all of them grew by 1. 8.Methods of claim 11 include the process of heating the expanded fluid to be almost equal to the temperature of the cooled expanded fluid 1. 9.Methods of claim 11 include the procedure for heating the pre-cooled fluid to a higher temperature than that of the saturated vapor of the evaporated medium fluid 2. 0.Methods of claim 11 include a procedure for the temperature of the pre-cooled fluid to be higher than that of the saturated fluid, the evaporated medium fluid 2. 1.The method according to claim 11 includes the process of returning the heat to the system by cooling almost equal to the heat used for reheating 2. 2. Method according to claim 11, where the medium fluid is a multicomponent fluid stream 2 3. A method for enhancing the thermodynamic cycle that consists of the following steps: The heating of the medium fluid begins to heat before the temperature is close to its boiling temperature. The heating of the medium fluid is first heated and then separated into the first and second fluid flows. The evaporation of the first fluid flows using the first heat source. The evaporation of such a second fluid stream using a second heat source. Recombination of the aforementioned first and second flowing fluid flows The integration of the central shoulder is the condensate to generate the primary gaseous medium fluid and it is fed. Expanding the main medium fluid that is fed to convert energy into a usable form. The hot expansion of the main medium fluid that is fed into it is repeated. The re-heated primary medium fluid is expanded to convert energy into a usable form. The cooling of the incoming main medium fluid is all repeatedly heated and expanded. To be the source of heat to evaporate the second fluid stream. Cooling the main medium fluid expands to a low pressure level to convert energy into a usable form. The cooling of the main intermediate fluid that leaves the turbine and condenses to the said starting medium fluid 2 4. The machine for enhancing the thermodynamic cycle consists of a turbine with the first and second turbine sets. Each turbine kit includes at least one turbine. Each turbine has a vapor inlet and outlet, the first turbine unit, as well as the first and second turbine sections. Each turbine section includes at least one turbine and has a steam outlet. The re-heating turbine is connected between the steam outlet of the first part of the turbine section and the steam inlet of the second part of the turbine and the vapor cooler connected between the vapor outlet of the second part of the turbine section. The first turbine and the vapor inlet of the second turbine, which allows most of the fluid passing through the turbine, will pass through the vaporizer, cool the turbine and return to the turbine 2. 5. The apparatus according to Clause 24 includes the condensation system connected between the outlet of the second turbine unit and the radiator connected between the inlet at the first turbine unit and the condensing system outlet. Such sub Such radiators include the preheating section. Evaporator and vaporizer 2 6. The apparatus according to claim 25, where the preheating element is connected in a fluid flow with the evaporator and with the vaporizer, such turbines are cooled so that the fluid flows from the section. The preheating may be cooled in the vaporizer, turbine and evaporator 2. 7. The machine according to claim 26, where the radiator is connected to a fluid heat source. Reheating machines include a method for washing the heat source through the reheater so that it is not connected to the condenser and the path for condensing the heat source. To the fluid before entering the said evaporator 2 8. Apparatus according to claim 25, where the sub-condensing system is a condensing apparatus for condensing a multicomponent medium fluid 2. 9. Apparatus according to claim 24, where the vaporizer is provided to receive all the flow through the turbine and return that flow to the turbine 3. 0. Apparatus for enhancing the thermodynamic cycle consists of a protective device with first and second turbine sets. Each turbine unit consists of at least one turbine unit, each with an inlet and each with a vapor inlet and outlet, and a turbine cooler connected between the turbine outlet's vapor outlet. The first one and the steam inlet of the second turbine, which allows all the fluid passing through the turbine, will pass through the turbines and return to the turbine.