Work presents further research in Hybrid Compression, HC, refrigeration, heating and work. HC couples synergic two technology sections, of absorption, ATS, and of mechanical vapor compression, MVCTS. MVCTS provides ATS sink and heat and ATS produces useful effect. Here, ATS and MVCTS base on the double truncated coabsorbent, TCBS, and on an integral mechanical vapor compression, IMVC, technologies, respectively. HC synergy becomes TCBS-IMVC. TCBS and IMVC operate by ammonia - water and ammonia working fluids. The TCBS-IMVC synergy produces three-fold. 1st, produces cooling, i.e. refrigeration or ultra-low temperature refrigeration, ULTR. 2nd, produces heating, and 3rd, it integrates in the Mother & Father Hybrid Compression, M&FHC, technology, aiming at producing useful (electrical) work when supplied by ambient temperature heat. Last application is a new synergy, TCBS-M&FHC or simply M&FHC. The work shows TCBS-IMVC and TCBS-M&FHC synergies flow-charts and model results. Input data hold for temperatures of internal sink, TMc =  − 54 ° C to + 72 ° C, TCBS desorber, TDI =  − 76.5 ° C to − 28 ° C, and resorber TRI =  + 50 ° C to + 97 ° C. Output data hold for cooling and heating efficiencies, [kJ heat / kJ work], 9.1 > COPc, HC > 35.5 and 21.7 > COPh, HC > 30.6, respectively and for useful work of M&FHC, [kJ work / kg], 360 > WM & FHC > 50. Last, not least, TCBS-M&FHC cycle multiplication driving supply factor is 1.791 ≤ FMDS ≤ 8.581. Results show TCBS-IMVC and M&FHC technologies can supply domestic and industrial buildings cooling, heating and electricity needs with zero pollution.

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Further Research of Hybrid Compression and Mother and Father Hybrid Compression Technologies Applied in Electrical, Refrigeration and Heating Power Yield

  • Mihail-Dan Staicovici

摘要

Work presents further research in Hybrid Compression, HC, refrigeration, heating and work. HC couples synergic two technology sections, of absorption, ATS, and of mechanical vapor compression, MVCTS. MVCTS provides ATS sink and heat and ATS produces useful effect. Here, ATS and MVCTS base on the double truncated coabsorbent, TCBS, and on an integral mechanical vapor compression, IMVC, technologies, respectively. HC synergy becomes TCBS-IMVC. TCBS and IMVC operate by ammonia - water and ammonia working fluids. The TCBS-IMVC synergy produces three-fold. 1st, produces cooling, i.e. refrigeration or ultra-low temperature refrigeration, ULTR. 2nd, produces heating, and 3rd, it integrates in the Mother & Father Hybrid Compression, M&FHC, technology, aiming at producing useful (electrical) work when supplied by ambient temperature heat. Last application is a new synergy, TCBS-M&FHC or simply M&FHC. The work shows TCBS-IMVC and TCBS-M&FHC synergies flow-charts and model results. Input data hold for temperatures of internal sink, TMc =  − 54 ° C to + 72 ° C, TCBS desorber, TDI =  − 76.5 ° C to − 28 ° C, and resorber TRI =  + 50 ° C to + 97 ° C. Output data hold for cooling and heating efficiencies, [kJ heat / kJ work], 9.1 > COPc, HC > 35.5 and 21.7 > COPh, HC > 30.6, respectively and for useful work of M&FHC, [kJ work / kg], 360 > WM & FHC > 50. Last, not least, TCBS-M&FHC cycle multiplication driving supply factor is 1.791 ≤ FMDS ≤ 8.581. Results show TCBS-IMVC and M&FHC technologies can supply domestic and industrial buildings cooling, heating and electricity needs with zero pollution.