SU1361357A1 - Thermoelectrochemical energy conversion method - Google Patents

Abstract

The invention makes it possible to increase the efficiency of the method. The heat released during condensation due to the exothermic reaction is removed for the evaporation process of the heat transfer medium. This embodiment allows to obtain a significant increase in the conversion rate and makes it possible to effectively use low-temperature heat sources, 1 sludge. , 35 WITH SL

Description

one

The invention relates to the field of heat engines, in particular machines that convert heat into mechanical work, and can be used to use low-temperature heat sources.

The aim of the invention is to increase the efficiency of the energy conversion method.

The drawing shows a device for determining the thermoelectrochemical method of energy conversion,

The device contains an evaporator. 1 combined with an electrolyzer 2, a capacitor 3 combined with an electrolyzer 4, a turbine 5, pumps 6 and 7,

The method is implemented as follows.

In the evaporator 1, due to the heat supplied from the outside from the heating source, and the heat absorbed in the electrolyzer 2 during the exothermic reaction, the coolant evaporates at a high temperature and enters the turbine 5, where, expanding, does work, B to condenser 3 in due to the heat absorbed in the electrolyzer 4 during the exothermic reaction, the vapors are condensed at a low temperature, and the coolant is returned to the evaporator by pump 6. The cycle is repeated.

The circulation of the electrolyte between the electrolyzer 2 and 4 is carried out

Kom 7, To increase the efficiency of the energy conversion method, the heat obtained during the condensation process, p is removed for the evaporation process,

ABOUT .

The application of the proposed thermo-electrochemical method of energy conversion allows to obtain a 10 significant increase in the conversion coefficient, which makes it possible to effectively use low-temperature heat sources.

If- claims

Thermoelectrochemical method of energy conversion, mainly

20 thermal energy into mechanical energy by evaporating the heat transfer medium at high temperature followed by the expansion of steam in the turbine and production. work by steam condensation at low

25 temperature and the subsequent return of the condensate to the evaporator, which is due to the fact that, in order to increase the efficiency, during condensation, additional

30 heat removal for a second; even an exothermic reaction, and when the heat carrier evaporates, additionally, the cyclone released by the exothermic reaction is additionally supplied, and the heat generated by condensation at 2g is removed for the evaporation process, 12

- Invention Formula

Thermoelectrochemical method of energy conversion, mainly

thermal energy into mechanical energy, by evaporation of the heat carrier at high temperature, followed by the expansion of steam in the turbine and production. work by steam condensation at low

temperature and the subsequent return of the condensate to the evaporator, about the fact that, in order to increase the efficiency, during condensation, additional

heat removal after sec; even an exothermic reaction, and when evaporating the coolant additionally supplys the cyclone released by the exothermic reaction, while the heat produced by condensation is removed for the evaporation process, 12

Editor H, Gunko

Compiled by S. Kshtsenko

Tehred A. Kravchuk Proofreader L. Patay

Order 6208/38 Circulation 482 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, d, 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (1)

Claim The thermoelectrochemical method of converting energy, mainly thermal energy into mechanical energy, by evaporating the coolant at high temperature, followed by expansion of the steam in the turbine and obtaining work by condensing the steam at low temperature and then returning the condensate to the evaporator, so that, in order to increase efficiency, during condensation, additional heat is removed due to an exothermic reaction, and when the coolant is evaporated, the heat released into the cut is additionally supplied tate exothermic reaction, the heat obtained in the condensation is discharged to the evaporation process.