RU2005101187A - ABSORPTION MEMBRANE INSTALLATION - Google Patents

Claims (6)

1. Absorption-membrane unit for producing cold and heat energy in the heat pump mode by separating a coolant from a strong solution through a semi-impermeable membrane under a pressure higher than the osmotic pressure, boiling it at low pressure to obtain a cooling effect and absorbing the generated vapor with a weak refrigerant solution, characterized in that , in order to obtain thermal and mechanical energy, the release of refrigerant is carried out under pressure created by the pump, mainly boiling the refrigerant and absorption of refrigerant vapors agent with a weak refrigerant solution to obtain thermal energy of condensation and dissolution of the refrigerant in the heat pump mode, or by heating the process of boiling the refrigerant from an external source of low potential energy. 2. The installation according to claim 1, characterized in that the lowering of the boiling pressure of the refrigerant and the intensification of the process of absorption of the refrigerant vapor with a weak refrigerant solution is carried out by an ejector that is connected in series with the flow of a weak refrigerant solution, sucking in refrigerant vapor, mixing them with a weak refrigerant solution, compressing the mixture and directing the mixture to absorb. 3. The installation according to claim 1, characterized in that the refrigerant is released sequentially on a semi-permeable membrane, at a pressure higher than the osmotic from a strong first-stage refrigerant solution with an increase in the concentration of absorbent in a weak refrigerant solution and the subsequent release of high-purity refrigerant at a pressure higher than the osmotic in the second refrigerant recovery stages. 4. The installation according to claim 3, characterized in that the release of refrigerant from a strong refrigerant solution and an increase in the concentration of absorbent in a weak refrigerant solution is carried out stepwise, with the number of steps more than two. 5. Installation according to claim 1, characterized in that the expander is installed in series with the flow of a weak refrigerant solution after the membrane block using the mechanical energy of the expander to drive a high pressure pump and (or) to drive a booster compressor, compressing refrigerant vapors before mixing them with a weak solution of refrigerant and absorption. 6. Installation according to claims 1, 2, 3 and 5, characterized in that a heat engine for producing mechanical energy is installed sequentially in the flow of refrigerant vapors after boiling it at high pressure, refrigerant vapors after the heat engine are absorbed by a weak solution at low pressure when the process is cooled absorption and heating of the process of boiling the refrigerant from an additional absorption-membrane installation operating in the heat pump mode or (and) an external source of cold and heat.