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Drop-in replacement of R22 in heat pumps used for district heating : influence of equipment and property limitationsGABRIELII, Cecilia; VAMLING, Lennart.International journal of refrigeration. 2001, Vol 24, Num 7, pp 660-675, issn 0140-7007Article
Yearly simulation of a solar-aided R22-DEGDME absorption heat pump systemILERI, A.Solar energy. 1995, Vol 55, Num 4, pp 255-265, issn 0038-092XArticle
Irreversibility analysis of a water-to-water mechanical-compression heat pumpHONGMEI LIANG; KUEHN, T. H.Energy (Oxford). 1991, Vol 16, Num 6, pp 883-896, issn 0360-5442, 14 p.Article
Revival of carbon dioxide as a refrigerantLORENTZEN, G.International journal of refrigeration. 1994, Vol 17, Num 5, pp 292-301, issn 0140-7007Article
Ammoniak in Kältesätzen. Ammoniak als klassisches Kältemittel = Ammoniac in liquid chillersREINHART, A.Klima, Kälte, Heizung. 1992, Vol 20, Num 11, pp 434-436, issn 0172-1984Article
Experimental heat transfer coefficients during refrigerant vaporisation and condensation inside herringbone-type plate heat exchangers with enhanced surfacesLONGO, G. A; GASPARELLA, A; SARTORI, R et al.International journal of heat and mass transfer. 2004, Vol 47, Num 19-20, pp 4125-4136, issn 0017-9310, 12 p.Article
HCFC22-based vapour absorption refrigeration systems. Part II: Influence of component effectivenessFATOUH, M; MURTHY, S. S.International journal of energy research. 1996, Vol 20, Num 5, pp 371-384, issn 0363-907XArticle
SUVA® AC 9000 = Suva AC 9000WILMS, M; GERSTEL, J; ZAKRZEWSKI, U et al.Die Kälte und Klimatechnik. 1994, Vol 47, Num 10, pp 808-821, issn 0343-2246, 8 p.Article
L'avenir des échangeurs avec les nouveaux fluides : Production du froid = The future of heat exchangers with new fluids : Cold productionMARVILLET, C.Revue générale du froid (1935). 1998, Vol 88, Num JUN, pp 29-35, issn 0755-7868Article
Experimental investigation on the hysteresis effect in vertical two-phase closed thermosyphonsONG, K. S; HAIDER-E-ALALHI, M.Applied thermal engineering. 1999, Vol 19, Num 4, pp 399-408, issn 1359-4311Article
A study of a water-to-water heat pump using flammable refrigerantsVANCE PAYNE, W; DOMANSKI, P. A; MULLER, J et al.Science et technique du froid. 1998, pp 658-667, issn 0151-1637, isbn 2-903633-97-5Conference Paper
Average boiling and condensation heat transfer coefficients of the zeotropic refrigerant mixture R22/R142b in a coaxial tube-in-tube heat exchangerMEYER, J. P; BUKASA, J. M; KEBONTE, S. A et al.Journal of heat transfer. 2000, Vol 122, Num 1, pp 186-188, issn 0022-1481Article
CO2 heat pump cycle and systemMA, Y; YANG, Z; LU, C et al.Science et technique du froid. 1997, pp 557-562, issn 0151-1637, isbn 7-5608-1805-6, 2VolConference Paper
Evaporation heat transfer and pressure drop of R-22 in 7 and 9.52 mm smooth/micro-fin tubesSEO, K; KIM, Y.International journal of heat and mass transfer. 2000, Vol 43, Num 16, pp 2869-2882, issn 0017-9310Article
Die Thermodrossel : Eine Anlage zur Entspannung komprimierter Flüssigkeiten unter Wärmeabgabe = The thermo-valve : A device for expanding compressed liquids and simultaneously gaining heatKELLER, J. U; GÖBEL, M. U.KI. Luft- und Kältetechnik. 1997, Vol 33, Num 2, pp 57-60, issn 0945-0459Article
R134a and various mixtures of R22/R134a as an alternative to R22 in vapour compression heat pumpsKARAGOZ, S; YILMAZ, M; COMAKLI, O et al.Energy conversion and management. 2004, Vol 45, Num 2, pp 181-196, issn 0196-8904, 16 p.Article
A comparative thermodynamic study of R22-DMETEG and R22-DMF compression-absorption heat pumpsGEORGE, J. M; MARX, W; SRINIVASA MURTHY, S et al.Heat recovery systems & CHP. 1990, Vol 10, Num 1, pp 31-36, issn 0890-4332Article
Heat of vaporization of mixturesITO, T; YAMAGUCHI, T; AKASAKA, R et al.Heat transfer. Japanese research. 1996, Vol 25, Num 1, pp 12-24, issn 0096-0802Article
Performances d'une thermo-frigo-pompe utilisant le FRIMIP 120: une alternative au R22 = Performance of an heat pump generating cold and heat using the FRIMIP 120: an alternative of R22TOREILLES, M.Revue générale du Froid. 1989, Vol 79, Num 5, pp 229-230, issn 0035-3205Article
Determination of optimum working conditions in heat-pumps using nonazeotropic refrigerant mixturesCOMAKLI, Ö; CELIK, C; ERDOGAN, S et al.Energy conversion and management. 1999, Vol 40, Num 2, pp 193-203, issn 0196-8904Article
Performance and heat transfer characteristics of hydrocarbon refrigerants in a heat pump systemCHANG, Y. S; KIM, M. S; RO, S. T et al.International journal of refrigeration. 2000, Vol 23, Num 3, pp 232-242, issn 0140-7007Article
Effect of lubricating oil contamination on evaporation in refrigerants R12 and R22CAWTE, H; SANDERS, D. A; POLAND, G. A et al.International journal of energy research. 1996, Vol 20, Num 8, pp 663-679, issn 0363-907XArticle
Performance evaluation of a heat pump cycle using NARMs by a simulation with equations of heat transfer and pressure dropMIYARA, A; KOYAMA, S; FUJII, T et al.International journal of refrigeration. 1993, Vol 16, Num 3, pp 161-168, issn 0140-7007Article
Performance analysis of a vapor compression heat pump using zeotropic refrigerant mixturesYILMAZ, Mehmet.Energy conversion and management. 2003, Vol 44, Num 2, pp 267-282, issn 0196-8904Article
Performance evaluation of R-22 alternative mixtures in a breadboard heat pump with pure cross-flow condenser and counter-flow evaporatorKIM, Man-Hoe.Energy (Oxford). 2002, Vol 27, Num 2, pp 167-181, issn 0360-5442Article