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Experimental Investigation on Flow and Drying Characteristics of Impinging Stream Drying
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作者 Xiulan Huai, Dengying Liu, Xiaoming Cui, Qun Meng (Institute of Engineering Thermophysics, Chemise Academy of Sciences, P. O. Box 2706, Beijing 100080, China) 《Journal of University of Science and Technology Beijing》 CSCD 2001年第2期141-144,共4页
Based on the experimental investigation of one-stage semi-circular impinging stream drying, the experiments with the two-stage semi-circular, as well as the vertical and semi-circular combined impinging stream drying ... Based on the experimental investigation of one-stage semi-circular impinging stream drying, the experiments with the two-stage semi-circular, as well as the vertical and semi-circular combined impinging stream drying were conducted. The variations of system pressure drop, the mean residence time of particles with the mass flow-rate ratio and air velocity etc, were determined. The influences of inlet air temperature, mass flow-rate ratio, initial moisture content of particles and air velocity etc. on drying characteristics were also studied. The results indicate that the vertical and semi-circular combined impinging stream drying can make full use of the advantages of both the vertical and semi-circular impinging stream drying. Reasonable mass flow-rate ratio, air velocity, and higher inlet air temperature should be used for less energy consumption and cost during drying process. 展开更多
关键词 two-stage semi-circular impinging stream drying combined impinging stream drying flow characteristics drying characteristics
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Experimental and Theoretical Analysis of the Impinging Stream Drying 被引量:2
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作者 淮秀兰 刘登瀛 SHIGERUKoyama 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2003年第1期42-48,共7页
The experiments of one-stage semi-circular and two-stage semi-circular impinging stream drying as well as the vertical and semi-circular combined impinging stream drying were carried out. The velocity distribution and... The experiments of one-stage semi-circular and two-stage semi-circular impinging stream drying as well as the vertical and semi-circular combined impinging stream drying were carried out. The velocity distribution and the mean residence time of particles, and the influence of various factors on drying characteristics were studied. A mathematical model of granular material drying in a semi-circular impinging stream dryer was proposed, in which the flow characteristics as well as the heat and mass transfer mechanisms were considered. Reasonable numerical methods were used to solve the equations. Under various conditions, the calculated results agree well with the experimental data. The unsteady-state drying dynamic equation, as well as the variations of drying rate and moisture content versus time were obtained. The results indicate that constant drying rate period does not exist in a semi-circular impinging stream dryer. Appropriate semi-circular stage number and curvature radius, flow-rate ratio, air velocity, and higher inlet air temperature should be used for enhancing the drying process. 展开更多
关键词 impinging stream drying flow characteristics drying characteristics mathematical model
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Simultaneous removal of NO and SO_2 from dry gas stream using non-thermal plasma 被引量:8
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作者 YU Qi YANG Hong-min +2 位作者 ZENG Ke-si ZHANG Zhen-wei YU Gang 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2007年第11期1393-1397,共5页
In order to investigate the feasibility of sequential removal NO and SO2 using non-thermal plasma and adsorbent simultaneously, the removal of NO and SO2 from dry gas stream (NO/SO2/N2/O2) with very little O2 using ... In order to investigate the feasibility of sequential removal NO and SO2 using non-thermal plasma and adsorbent simultaneously, the removal of NO and SO2 from dry gas stream (NO/SO2/N2/O2) with very little O2 using non-thermal plasma was investigated using a coaxial dielectric barrier discharge. Comparative experiments were carried out in the dry gas stream with and without Ar respectively at O2 concentration of 0.1%. The results showed that NO could be removed remarkably and it would be enhanced in the presence of Ar in the dry gas stream. It seems that SO2 could not be removed unless there is Ar in the dry gas stream. The mechanism of removal of NO and SO2 in the dry gas stream was discussed. 展开更多
关键词 NO SO2 non-thermal plasma dry gas stream simukaneous removal
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