FROST
Category
B1
Type
THERMODYNAMICS & TRANSFER PROCESSES
Friday, August 21 (Day 5), Room 303
day/room
Friday, August 21 , Room 303
time
08:30〜10:10
chair
HERMES C. (Federal University of Parana, Brazil) POPOVAC M. (Austrian Institute of Technology, Austria)
08:30 77
STATE-OF-THE ART OF FROST DEPOSITION ON FLAT SURFACES
LEONI A.(*,**) , MONDOT M.(**), DURIER F.(**), REVELLIN R.(*), HABERSCHILL P.(*)
(*) Université de Lyon, CNRS, INSA-Lyon, Université Lyon 1, CETHIL UMR5008, France, (**) Centre Technique des Industries Aérauliques et Thermiques (CETIAT), Domaine scientifique de la Doua, France
08:50 389
STUDY ON CONTROL AND INHIBITION OF FROST FORMATION ON A FLAT PLATE
MATSUSHITA S.(*), KATO M.(*), OHKUBO H.(**), NISHIDA K.(*)
(*) MAYEKAWA MFG.CO., LTD., Japan, (**) Tamagawa University, Japan
09:10 462
STUDY ON THE FROSTING PHENOMENA BETWEEN CONCAVITY AND CONVEXITY PLATE UNDER FORCED CONVECTION -ANALYSIS OF FROST LAYER GROWTH-
KANEKO A.(*), TAKANO Y.(**), MIYAHARA R.(**), MORITA K.(***) , KATSUTA M.(***)
(*) Automotive Product Development Department, SANDEN ADVANCED TECHNOLOGY CORPORATION, Japan, (**) Graduate School of Environment and Energy Engineering, Waseda University, Japan, (***) Department of Modern Mechanical Engineering, Waseda University, Japan
09:30 656
EFFECTS OF WEAK MAGNETIC FIELDS ON FROSTING PROCESS ON SURFACE OF COPPER TUBE
ZHAO H.(*) , WANG L.(**), LAI Y.(*), HAN J.(*), LI W.(*)
(*) School of Power and Energy, Shandong University, China, (**) School of Control Science and Engineering, Shandong University, China
09:50 712
THERMAL PERFORMANCE OF LOUVERED FIN-TUBE HEAT EXCHANGER UNDER FROSTING CONDITION
LIM J.(*), PARK W.(*), CHO K.(**)
(*) Graduate School of Mechanical Engineering, Sungkyunkwan University, South Korea, (**) School of Mechanical Engineering, Sungkyunkwan University, South Korea
Friday, August 21 (Day 5), Room 303
day/room
Friday, August 21 , Room 303
time
10:30〜12:10
chair
CHO K. (Sungkyunkwan University, Korea) ENOKI K. (The University of Electro-Communications, Japan)
10:30 18
LUMPED HEAT AND MASS TRANSFER MODEL OF THE FROST FORMATION PROCESS
MOHS W. F.(*) , KULACKI F. A.(**)
(*) SKOPE Ind Ltd., New Zealand, (**) Department of Mechanical Engineering, University of Minnesota, United States
10:50 35
THERMAL CONDUCTIVITY OF FROST: LITERATURE REVIEW AND CORRELATION OF DATA
NEGRELLI S., HERMES C. J. L.
Laboratory of Thermodynamics and Thermophysics, Federal University of Paraná, Brazil
11:10 441
FLAT-TUBE HEAT EXCHANGER MODELING UNDER FROSTING CONDITIONS FOR AN ELECTRIC VEHICLE HEAT PUMP
BREQUE F. , NEMER M.
MINES ParisTech, PSL Research University, Center for energy Efficiency of Systems, France
11:30 28
NUMERICAL ANALYSIS OF THE FROSTING PERFORMANCE OF THE AIR-SIDE OF A HEAT PUMP
POPOVAC M. , SEICHTER S., BENOVSKY P., FLECKL T., REICHL C.
Austrian Institute of Technology, Energy Department, Austria
11:50 118
EXPERIMENTAL STUDY OF HEAT AND MASS TRANSFER IN MODIFIED ICE STRUCTURES RESULTED FROM DIFFUSION OF POLYMERIC COMPOUNDS USED FOR SPORTS ICE OBJECTS
GONCHAROVA G.(*) , USTUGOVA T.(*), NIKIFOROVA I.(*), RAZOMASOV N.(**)
(*) GP “Refrigerating - Engineering Center”, Russia, (**) Moscow State Technical University, Russia