kw.\*:("Lithium bromure")
Results 1 to 25 of 1149
Selection :
Experimental study of the operating characteristics of a water-lithium bromide absorption coolerLANDAURO-PAREDES, J. M; WATSON, F. A; HOLLAND, F. A et al.Chemical engineering research and design. 1983, Vol 61, Num 6, pp 362-370Article
REFRIGERATING DEVICE WITH LITHIUM BROMIDE WITH ABSORPTION AND GAS HEATINGKURILOV GV; PYZHOV SI; SABADASH LS et al.1976; PROMYSHL. ENERGET.; S.S.S.R.; DA. 1976; NO 4; PP. 54-56Article
PERSPECTIVES DE L'EMPLOI DE GROUPES FRIGORIFIQUES A ABSORPTION A BROMURE DE LITHIUM POUR AUGMENTER L'EFFICACITE DE LA RECUPERATION DE CHALEURROZENFEL'D LM; BYKOV AV; KALNIN IM et al.1974; TEPLOENERGETIKA; S.S.S.R.; DA. 1974; NO 11; PP. 34-36Article
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
Korrosionsverhalten ausgewählter Werkstoffe in Lithiumbromid-Lösung für den Anwendungsfall Absorptionskältemaschinen = Corrosion behavior of selected materials in lithium bromide solution for the application absorption chillersBRANDT, B.Materials and corrosion (1995). 2004, Vol 55, Num 7, pp 536-542, issn 0947-5117, 7 p.Article
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
DIE LITHIUMBROMID-ABSORPTIONSKAELTEMASCHINE UND IHR ANWENDUNGSBEREICH = LA MACHINE FRIGORIFIQUE A ABSORPTION A BROMURE DE LITHIUM, ET SES DOMAINES D'UTILISATIONSCHMUYLOW NG.1972; LUFT-U. KAELTETECH.; DTSCH.; DA. 1972; VOL. 8; NO 3; PP. 145-147; ABS. ANGLSerial Issue
LES POSSIBILITES DES SYSTEMES FRIGORIFIQUES A ABSORPTION POUR LE CONDITIONNEMENT DE L'AIRVAN BAASBANK P.1972; REV. GEN. GAZ; BELG.; DA. 1972; VOL. 94; NO 5-6; PP. 99-121; BIBL. 6 REF.Serial Issue
LITHIUM BROMIDE-WATER REFRIGERATOR CYCLE ANALYSIS WITH IMPLICATIONS FOR SOLAR OPERATION = ANALYSE DU CYCLE D'UN REFRIGERATEUR A BROMURE DE LITHIUM-EAU AVEC SES IMPLICATIONS POUR SON FONCTIONNEMENT A L'ENERGIE SOLAIRESHERIDAN NR.sdIN: THERMOFLUIDS CONF.; MELBOURNE; 1974; SYDNEY; INST. ENG. AUSTRALIA; DA. S.D.; PP. 66-70; BIBL. 3 REF.Conference Paper
CONDUCTIVITY ENHANCEMENT OF LITHIUM BROMIDE MONOHYDRATE BY AL2O3 PARTICLESNAKAMURA O; GOODENOUGH JB.1982; SOLID STATE IONICS; ISSN 0167-2738; NLD; DA. 1982; VOL. 7; NO 2; PP. 119-123; BIBL. 14 REF.Article
POOL BOILING HEAT TRANSFER TO LITHIUM BROMIDE WATER SOLUTION. = TRANSFERT DE CHALEUR A L'EBULLITION EN VOLUME A UNE SOLUTION AQUEUSE DE BROMURE DE LITHIUMOHNISHI M; TAJIMA O.1975; HEAT TRANSFER-JAP. RES.; U.S.A.; DA. 1975; VOL. 4; NO 4; PP. 67-77; BIBL. 9 REF.Article
ANALYSE THERMODYNAMIQUE DES CYCLES POUR OBTENIR DE L'ENERGIE ELECTRIQUE, DU FROID ET DE L'EAU CHAUDE DANS LES SYSTEMES ENERGETIQUES AVEC UN TRANSFORMATEUR THERMIQUE A ABSORPTION AU BROMURE DE LITHIUMROZENFEL'D LM; GERSHKOVICH VF.1975; IZVEST. NIBIR. OTDEL. AKAD. NAUK S.S.S.R., TEKH. NAUK; S.S.S.R.; DA. 1975; NO 3; PP. 125-131; BIBL. 4 REF.Article
Application of the exergetic cost theory to the LiBr/H2O vapour absorption systemMISRA, R. D; SAHOO, P. K; GUPTA, A et al.Energy (Oxford). 2002, Vol 27, Num 11, pp 1009-1025, issn 0360-5442Article
Performance evaluation of absorption chiller using LiBr + H2N(CH2)2OH + H2O, LiBr + HO(CH2)3OH + H2O, and LiBr + (HOCH2CH2)2NH + H2O as working fluidsKIM, J.-S; YOUNG PARK; HUEN LEE et al.Applied thermal engineering. 1999, Vol 19, Num 2, pp 217-225, issn 1359-4311Article
Wärme macht Kälte -Grundlagen der Absorptionskälteerzeugung = Generating cold from heat : The basic principles, of absorption refrígerationRATHMANN, D.Gas, Wärme international. 1998, Vol 47, Num 13, pp 12-14, issn 0020-9384, NSArticle
Marangoni convection during steam absorption into aqueous LiBr solution with surfactantHOZAWA, M; INOUE, M; SATO, J et al.Journal of chemical engineering of Japan. 1991, Vol 24, Num 2, pp 209-214, issn 0021-9592Article
Formation de dendrites dans un système d'électrolyte polymériqueMOCHALOV, S. EH; YAKOVLEVA, A. A; KOLOSNITSYN, V. S et al.Èlektrohimiâ. 1989, Vol 25, Num 10, pp 1404-1406, issn 0424-8570Article
The effect of micro-surface treatment on heat and mass transfer performance for falling film absorption processYONG TAE KANG; KIM, Jin-Kyeong; CHAN WOO PARK et al.International heat transfer conference. 2002, pp 123-128, isbn 2-84299-308-X, 6 p.Conference Paper
Lithiumbromid/Wasser-Absorptions-kältemaschinen = Lithium bromide/water absorption refrigerating machineHARTMANN, K.Die Kälte und Klimatechnik. 1998, Vol 51, Num 10, pp 780-790, issn 0343-2246, 6 p.Conference Paper
Fuzzy control strategy of direct-fired LiBr absorption chiller-heater and pump systemWANG, X. H; ZHANG, G. Q; PENG, J. G et al.Science et technique du froid. 1997, pp 670-674, issn 0151-1637, isbn 7-5608-1805-6, 2VolConference Paper
Free energy changes in denaturation of ribonuclease A by mixed denaturants: effects of combinations of guanidine hydrochloride and one of the denaturants lithium bromide, lithium chloride, and sodium bromideFAIZAN AHMAD.The Journal of biological chemistry (Print). 1984, Vol 259, Num 7, pp 4183-4186, issn 0021-9258Article
Absorption chillers with the working pair water/lithium bromide adapted to high and low temperature applicationsSCHWEIGLER, C; ZIEGLER, F.Le froid par sorption. Journée. 1999, 9 p.Conference Paper
The SEI model : application to lithium-polymer electrolyte batteriesPELED, E; GOLODNITSKY, D; ARDEL, G et al.Electrochimica acta. 1995, Vol 40, Num 13-14, pp 2197-2204, issn 0013-4686Conference Paper
Hyperthyroidism in patients treated with lithium. Report of nine cases : a case reportSIROTA, D. K; COBIN, R. H; FUTTERWEIT, W et al.The Mount Sinai journal of medicine. 1992, Vol 59, Num 1, pp 79-81, issn 0027-2507Article
Solubilities and vapor pressures of the lithium bromide + calcium nitrate + water systemPARK, Y; KIM, J.-S; LEE, H et al.International journal of thermophysics. 1997, Vol 18, Num 6, pp 1575-1582, issn 0195-928XArticle