@inproceedings{oai:muroran-it.repo.nii.ac.jp:00005881,
 author = {戸倉,  郁夫 and TOKURA, Ikuo and 岸浪, 紘機 and KISHINAMI, Koki and 鈴木,  淳 and SUZUKI, Jun},
 book = {Proceedings of the 4th JSME-KSME Thermal Engineering Conference},
 month = {Oct},
 note = {application/pdf, An experimental study on heat transfer of water-air foam was conducted under forced convection conditions. A cylindrical heating surface whose temperature was lower than 373K, i.e., less than the boiling temperature of water, was employed. Heat transfer coefficient was obtained for various combinations of foam density, foam velocity, and temperature of the heating surface. The coefficients were found to increase with increasing the density and the velocity of the foam. Abrupt increase in the coefficient was also obtained as the temperature of the heater rises to 373K. A numerical analysis based on a lubricated plug flow model shows that one of the reason of the increase in the coefficient is latent heat transfer due to vapor diffusion in void space in the foam.},
 pages = {45--50},
 publisher = {The Japan Society of Mechanical Engineers},
 title = {HEAT TRANSFER CHARACTERISTICS OF FOAM FLOW AT TEMPERATURE UP TO 373K OF HEATING SURFACE},
 volume = {3},
 year = {2000},
 yomi = {トクラ, イクオ and キシナミ, コウキ and スズキ, ジュン}
}