RU98105154A - LOW-POTENTIAL HEAT TRANSFORMATION SYSTEM - Google Patents

Claims (7)

1. The low-potential heat conversion system comprising a working fluid circulation circuit with a heat exchanger sequentially installed to restore the heat of the working fluid, a compressor for compressing it and an expansion device for converting the heat of the working fluid flowing with expansion and lowering of the temperature of the latter, characterized in that it is provided with an introduction pipeline with built-in shut-off and control valves for supplying a liquid humidifier having a boiling point above the maximum ambient temperature, and a sprayer for introducing a sprayed humidifier into the working fluid, which is used as a gas with a boiling point below the melting point of the humidifier, as well as an electric generator, the sprayer being placed in the said circuit after the heat exchanger at the inlet of the axial compressor with the possibility of saturation of the heated working fluid humidifier vapor during compression in the compressor, and the expansion device is made in the form of an axial gas turbine for simultaneous conversion of the explicit and that heat into useful work both due to expansion of the working fluid and condensation of the humidifier vapor, while the turbine and compressor are made with holes in the casing to drain condensate and excess humidifier, respectively, the turbine blades and compressor blades are installed diametrically opposite, the number of turbine blades is made at least equal to the number of compressor blades, and the turbine rotor is kinematically connected to the compressor and generator rotors to compensate for conversion losses and external energy consumption gii, respectively, in addition, the system is equipped with a combustion chamber of gaseous fuel installed with the possibility of introducing combustion products into the working fluid to at least partially restore the heat of the latter.  2. The system according to claim 1, characterized in that the turbine and compressor are made with a common housing, and their rotors are connected by a common shaft.  3. The system according to one of claim 1 or 2, characterized in that the turbine is made in the form of an axial compressor of the inverse type.  4. The system according to one of claims 1 to 3, characterized in that the turbine is made with the number of rows of blades 1-3 large number of rows of compressor blades.  5. The system according to one of paragraphs. 1-4, characterized in that it is equipped with a condensate pump for supplying a humidifier coming from the corresponding holes of the turbine and compressor housings, into the humidifier supply pipe.  6. The system according to one of claims 1 to 5, characterized in that the electric generator is made reversible with the ability to work both in generator and in motor mode.  7. The system according to one of claims 1 to 6, characterized in that it is equipped with an accelerating electric or heat engine, the rotor of which is kinematically connected to the rotors of the compressor and turbine.