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Chromatographie par perméation de gel de novolaques sur des gels de polystyrène dans le DMFHASEGAWA, K; FUKUDA, A; TONOGAI, S et al.Kobunshi ronbunshu (Tokyo). 1985, Vol 42, Num 5, pp 325-331, issn 0386-2186Article

Lithium bromide absorption machines: Pressure drop and mass transfer in solutions conical sheetsPALACIOS, E; IZQUIERDO, M; LIZARTE, R et al.Energy conversion and management. 2009, Vol 50, Num 7, pp 1802-1809, issn 0196-8904, 8 p.Article

Modelling a solar-assisted air-conditioning system installed in CIESOL building using an artificial neural networkROSIEK, S; BATLLES, F. J.Renewable energy. 2010, Vol 35, Num 12, pp 2894-2901, issn 0960-1481, 8 p.Article

A numerical model for the dynamic simulation of a recirculation single-effect absorption chillerZINET, Matthieu; RULLIERE, Romuald; HABERSCHILL, Philippe et al.Energy conversion and management. 2012, Vol 62, pp 51-63, issn 0196-8904, 13 p.Article

Experimental study of a graphite disks absorber couple to a heat transformerOLARTE-CORTES, J; TORRES-MERINO, J; SIQUEIROS, J et al.Experimental thermal and fluid science. 2013, Vol 46, pp 29-36, issn 0894-1777, 8 p.Article

Pourbaix diagrams for chromium in concentrated aqueous lithium bromide solutions at 25 °CMUNOZ-PORTERO, M. . J; GARCIA-ANTON, J; GUINON, J. L et al.Corrosion science. 2009, Vol 51, Num 4, pp 807-819, issn 0010-938X, 13 p.Article

Energy and exergy analysis of a double absorption heat transformer operating with water/lithium bromideMARTINEZ, H; RIVERA, W.International journal of energy research. 2009, Vol 33, Num 7, pp 662-674, issn 0363-907X, 13 p.Article

Exergy calculation of lithium bromide―water solution and its application in the exergetic evaluation of absorption refrigeration systems LiBr-H2OPALACIOS-BERECHE, Reynaldo; GONZALES, R; NEBRA, S. A et al.International journal of energy research. 2012, Vol 36, Num 2, pp 166-181, issn 0363-907X, 16 p.Article

Energy and exergy analysis of an experimental single-stage heat transformer operating with the water/lithium bromide mixtureRIVERA, W; CEREZO, J; MARTINEZ, H et al.International journal of energy research. 2010, Vol 34, Num 13, pp 1121-1131, issn 0363-907X, 11 p.Article

Densities and viscosities of the water + lithium bromide + ethanolamine systemKIM, J.-S; PARK, Y; LEE, H et al.Journal of chemical and engineering data (Print). 1996, Vol 41, Num 4, pp 678-680, issn 0021-9568Article

Installation frigorifique à absorption eau-bromure de lithium à deux bouilleurs = Refrigerating absorption installation water-lithium bromide with two boilersSAVA, P.Revue générale du Froid. 1985, Vol 75, Num 6, pp 383-388, issn 0035-3205Article

Modelling of the behavior of the lithium bromide water absorption ChillerSALMAN, M. A; KOTOB, S.International journal of modelling & simulation. 1983, Vol 3, Num 3, pp 133-136, issn 0228-6203Article

Nanofibrous membrane-based absorption refrigeration systemRASOOL NASR ISFAHANI; SAMPATH, Karthikeyan; MOGHADDAM, Saeed et al.International journal of refrigeration. 2013, Vol 36, Num 8, pp 2297-2307, issn 0140-7007, 11 p.Article

Experimental investigation on an ammonia-water-lithium bromide absorption refrigeration system without solution pumpTIEHUI WU; YUYUAN WU; ZHIQIANG YU et al.Energy conversion and management. 2011, Vol 52, Num 5, pp 2314-2319, issn 0196-8904, 6 p.Article

Evaluation of mass absorption in LiBr flat-fan sheetsPALACIOS, E; IZQUIERDO, M; MARCOS, J. D et al.Applied energy. 2009, Vol 86, Num 12, pp 2574-2582, issn 0306-2619, 9 p.Article

First and second law multidimensional analysis of a triple absorption heat transformer (TAHT)DONNELLAN, Philip; BYRNE, Edmond; OLIVEIRA, Jorge et al.Applied energy. 2014, Vol 113, pp 141-151, issn 0306-2619, 11 p.Article

The TbBr3―LiBr binary system: Experimental thermodynamic investigation and assessment of phase diagramRYCERZ, L; GONG, W; CAUNE-ESCARD, M et al.Journal of chemical thermodynamics. 2013, Vol 56, pp 15-20, issn 0021-9614, 6 p.Article

New flat-fan sheets adiabatic absorber for direct air-cooled LiBr/H2O absorption machines: Simulation, parametric study and experimental resultsGONZALEZ-GIL, A; IZQUIERDO, M; MARCOS, J. D et al.Applied energy. 2012, Vol 98, pp 162-173, issn 0306-2619, 12 p.Article

Feasibility of a compact heat recovery ventilator module with an integrated air-cooled solar absorption air-conditionerKIM, D. S.International journal of thermal sciences. 2011, Vol 50, Num 8, pp 1604-1614, issn 1290-0729, 11 p.Article

LE MACCHINE FRIGORIFERE AD ASSORBIMENTO A BROMURO DI LITIO = ABSORPTION REFRIGERATING MACHINE WITH LITHIUM BROMIDE = LA MACHINE FRIGORIFIQUE A ABSORPTION AU BROMURE DE LITHIUMFORNASIERI E.1982; COND. ARIA, RISCALD., REFRIG.; ISSN 0373-7772; ITA; DA. 1982; VOL. 26; NO 10; PP. 851-857; BIBL. 3 REF.Article

Vapor pressures of the water-lithium bromide-lithium iodide systemIYOKI, S; IWASAKI, S; UEMURA, T et al.Journal of chemical and engineering data (Print). 1990, Vol 35, Num 4, pp 429-433, issn 0021-9568, 5 p.Article

Surface du liquidus du système Li2Br2-Na2Br2-CdBr2DUNAEVA, T. I; IL'YASOV, I. I.Žurnal neorganičeskoj himii. 1985, Vol 30, Num 6, pp 1615-1617, issn 0044-457XArticle

A theoretical and experimental investigation into the performance of absorption cycle heat pumps applied to industrial processes (progress report)HEPPENSTALL, T.Four contractors' meetings on heat pumps. 1983, pp 184-194Conference Paper

R&D of lithium bromide absorption heat transformerWANG, C; LU, Z.Science et technique du froid. 1997, pp 527-533, issn 0151-1637, isbn 7-5608-1805-6, 2VolConference Paper

Thermodynamic analysis of absorption refrigeration cycles using the second law of thermodynamics method = Analyse thermodynamique des cycles frigorifiques à absorption, avec l'appui du deuxième principe de la thermodynamiqueAPHORNRATANA, S; EAMES, I. W.International journal of refrigeration. 1995, Vol 18, Num 4, pp 244-252, issn 0140-7007Article

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