Title of article :
Numerical analysis of heat transfer mechanisms to pneumatically conveyed dense phase flow
Author/Authors :
Zheng، نويسنده , , Y. and Pugh، نويسنده , , J.R. and McGlinchey، نويسنده , , D. and Knight، نويسنده , , E.A. and Liu، نويسنده , , Q.، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2011
Pages :
6
From page :
231
To page :
236
Abstract :
Mass and energy balances are required in power generation, chemical, pharmaceutical, food and commodity transfer processes in order to achieve efficient utilization of energy and raw materials. There is a need for accurate, reliable, on-line, continuous and non-invasive measurement of solidsʹ mass flow rate in many industrial processes mentioned above. Thermal flowmeters, in theory, provide a true indication of the mass flow of solids in pneumatic conveying pipelines. licated heat transfer between a pipe wall and a gas–solid flow in a conveying pipeline inevitably takes place in a thermal solidsʹ mass flow measurement process. A study of heat transfer mechanisms to pneumatically conveyed gas–solid dense phase flow as a means to mass flow rate measurement has been conducted experimentally and numerically to evaluate the heat transfer coefficient between the hot wall and the gas–solid dense phase flow. The prediction of the heat transfer coefficient is compared with the experimental findings. It was found that the heat transfer coefficient between the pipe wall and the gas–solid dense flow is a function of solids loading ratio. Increasing the gas stream velocity significantly augments the heat transfer between the hot wall and the gas–solid dense phase flow.
Keywords :
Heat transfer coefficient , Solids loading ratio , Gas–solid flow , Dense phase , Eulerian turbulent model
Journal title :
Powder Technology
Serial Year :
2011
Journal title :
Powder Technology
Record number :
1700104
Link To Document :
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