RU2013150783A - METHOD FOR TRANSFORMING THERMAL ENERGY TO USEFUL WORK - Google Patents

Abstract

A method of converting thermal energy into useful work using rotary steam engines operating under the influence of an external heat source, a refrigerator and a condensation device, characterized in that in the two rotary engines used, the liquids used as the working fluid do not freeze in the earth’s climatic conditions, have a low boiling point and under the influence of various heat sources or heaters working due to heat exchange with industrial technologies requiring cooling, they allow there is a sequentially alternating transition of the working fluid from one phase state to another in order to maintain the process of converting thermal energy into useful mechanical work in a hermetically closed and thermally insulated circuit using a valveless rotating gas distribution drum that alternately directs the high pressure steam generated in the steam generator into the corresponding working sections of used screw or gear two rotary engines, where due to the expansion of steam It completes useful work and cools, and after passing through a condensation device that uses the natural low temperature of high atmospheric layers or cold climatic environmental conditions, it is returned to the steam generator as a liquid for reuse, which increases the efficiency of the process of converting thermal energy into mechanical work and saves hydrocarbon fuel.

Claims (1)

A method of converting thermal energy into useful work using rotary steam engines operating under the influence of an external heat source, a refrigerator and a condensation device, characterized in that in the two rotary engines used, the liquids used as the working fluid do not freeze in the earth’s climatic conditions, have a low boiling point and under the influence of various heat sources or heaters working due to heat exchange with industrial technologies requiring cooling, they allow there is a sequentially alternating transition of the working fluid from one phase state to another in order to maintain the process of converting thermal energy into useful mechanical work in a hermetically closed and thermally insulated circuit using a valveless rotating gas distribution drum that alternately directs the high pressure steam generated in the steam generator into the corresponding working sections of used screw or gear two rotary engines, where due to the expansion of steam It completes useful work and cools, and after passing through a condensation device that uses the natural low temperature of high atmospheric layers or cold climatic environmental conditions, it is returned to the steam generator as a liquid for reuse, which increases the efficiency of the process of converting thermal energy into mechanical work and saves hydrocarbon fuel.