细小管内的流动凝结换热具有许多超常换热特性,经典的Nusselt分析方法已不能满足需要.在以往研究的基础上,本文进一步通过实验探析换热温差和蒸气流量对不同直径的细小管内流动凝结换热的影响.研究表明,管径越小,换热温差对凝结换热系数的影响程度越低;通过流量和倾角对凝结换热数的影响,分析了重力引发的流动分层和剪切力对凝结液的排除两种因素对细管传热强化的作用机制.本文的实验结果和用于常规尺度下的通用关联式对比表明,采用细管,管内的流动凝结换热得到无可置疑的强化.
参考文献
| [1] | Reay D A .Compact Heat Exchangers:A Review of Current Equipment and R & D in the field[J].Heat Recovery Systems and CHP,1994,14:459-479. |
| [2] | Srinivasan V;Shah R K .Condensation in Compact Heat Exchangers[J].Journal of Enhanced Heat Transfer,1997,4:237-256. |
| [3] | Wadekar V V .Improving Industrial Heat Transfercompact and Non-so-Compact Heat Exchangers[J].Journal of Enhanced Heat Transfer,1998,5:53-69. |
| [4] | Bu-Xuan Wang;Xiao-Ze Du .Study on laminar film-wise condensation for vapor flow in an inclined small/mini-diameter tube[J].International Journal of Heat and Mass Transfer,2000(10):1859-1868. |
| [5] | Shah M M .A General Correlation for Heat Transfer during Film Condensation inside Pipes[J].International Journal of Heat and Mass Transfer,1979,22:547-556. |
| [6] | 王补宣,杜小泽.细圆管内流动凝结换热的实验研究[J].工程热物理学报,2000(03):324-328. |
| [7] | 王补宣,杜小泽.细圆管内流动凝结换热的流型研究[J].自然科学进展,2000(12):1119-1124. |
| [8] | Chen S L;Gerner F M;Tien C L.Gereral Film Condensation Correaltions[J].Experimental Heat Transfer,1987:1:93-107. |
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