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EFFECT OF THE CHANNEL LENGTH ON THE BOILING CRISISKHOR'KOV MG; GLAZKO VD; ORLOVA NM et al.1980; HEAT TRANSFER, SOV. RES.; ISSN 0440-5749; USA; DA. 1980; VOL. 12; NO 3; PP. 108-110Article

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EXPERIMENTAL STUDY OF THERMOACOUSTIC OSCILLATIONS IN HEATED CHANNELS AT HYPERCRITICAL PRESSURESGERLIGA VA; VETROV VI.1978; IZVEST. VYSSH. UCHEBN. ZAVED., AVIAC. TEKH.; SUN; DA. 1978; VOL. 21; NO 1; PP. 31-36; BIBL. 11 REF.Article

THE EFFECT OF BUOYANCY ON FLOW AND HEAT TRANSFER FOR A GAS PASSING DOWN A VERTICAL PIPE AT LOW TURBULENT REYNOLDS NUMBERSEASBY JP.1978; INTERNATION. J. HEAT MASS TRANSFER; GBR; DA. 1978; VOL. 21; NO 6; PP. 791-801; ABS. FRE/GER/RUS; BIBL. 18 REF.Article

COMMANDE OPTIMALE DE LA TEMPERATURE D'UN MILIEU CHAUFFANT DANS UNE CONDUITE LONGUEVIGAK VM; PROKOPENKO AG; FEDICHKO OM et al.1978; MAT. METODY FIZ.-MEKH. POLJA, U.S.S.R.; SUN; DA. 1978; NO 7; PP. 81-86; BIBL. 11 REF.Article

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