会议专题

MULTIPHASE MODELING OF EXTENSIVE DRYING SCENARIOS AND SIMULTANEOUS HEAT AND MASS TRANSFER PROCESSES USING THE SPATIAL REACTION ENGINEERING APPROACH (S-REA)

查看全文→
  Most of the mechanistic models are complex with a large number of unknown coefficients specific to the materials of concern.In this paper,the S-REA (spatial reaction engineering approach) is described as a non-equilibrium multiphase model to describe various challenging simultaneous heat and mass transfer processes.The REA (reaction engineering approach) is used to represent the local evaporation rate,which can then be combined with a system of equations of heat and mass transfer to create the S-REA (spatial reaction engineering approach).The results of modeling using the S-REA match well with the extensive experimental data reported previously.S-REA is thus presented as an effective alternative to mechanistic models.

S-REA (spatial reaction engineering approach) modeling heat treatment multiphase wood

A.Putranto X.D.Chen

Department of Chemical Engineering,Building 36,Monash University,Clayton Campus,Victoria 3800,Austra Department of Chemical Engineering,Building 36,Monash University,Clayton Campus,Victoria 3800,Austra

国际会议

The 18th International Drying Symposium Conference(第十八届国际干燥学术大会(IDS2012))

厦门

英文

1-9

2012-01-11(万方平台首次上网日期,不代表论文的发表时间)