CFD simulation of fixed bed dryer by using porous media concepts:Unpeeled longan case  被引量:1

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作  者:Wuttichai Prukwarun Wasan Khumchoo Waraporn Seancotr Sarawut Phupaichitkun 

机构地区:[1]Department of Material Science and Engineering,Faculty of Engineering and Industrial Technology,Silpakorn University,Nakorn Pathom,73000,Thailand

出  处:《International Journal of Agricultural and Biological Engineering》2013年第1期100-110,共11页国际农业与生物工程学报(英文)

基  金:This work was financed by Department of Material Science and Engineering and Faculty of Engineering and Industrial Technology,Sipakorn Univesity,THAILAND.

摘  要:Quality of dried product depends on the temperature and velocity at each position in the dryer.Simultaneous microscopic and macroscopic simulation on Computational Fluid Dynamic(CFD)is a general problem of fixed bed dryer consisting of water transportation in porous media and dynamic flow of hot air in the dryer.Simplifying the dryer by assuming the packed bed as porous volume,viscous and inertial resistances(1/α and C_(2))are necessary for calculating the pressure drop and velocity change in the bulk.Comparing theDP/L of the standard packing with experimental results,the porosity and resistance parameters can be estimated.Simulation of unmodified,adding false floor and invest mesh,and insulating the dryer wall are used for validation with previous results.Adding the round holed sieve as false floor and invert mesh can produce better profile but cannot obtain uniform distribution.Air velocity distribution shows similar but the calculating temperature is higher than that from the experiment.By analysis of thermal efficiency of dryer without insulator,the heat loss rates with flue gas and heat flux at wall are in the range 14%-17%and 5.5%-7.3%.Integrating with single fruit or thin layer drying kinetic in the future,the CFD simulation can be used for optimal design of fixed bed dryer.

关 键 词:deep-bed dryer LONGAN velocity and temperature distribution Computational Fluid Dynamic(CFD) ANSYS 

分 类 号:O35[理学—流体力学]

 

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