大连海事大学学报
大連海事大學學報
대련해사대학학보
JOURNAL OF DALIAN MARITIME UNIVERSITY
2010年
1期
119-122
,共4页
太阳能%膜蒸馏%传热%传质%热效率
太暘能%膜蒸餾%傳熱%傳質%熱效率
태양능%막증류%전열%전질%열효솔
solar power%membrane distillation%heat transfer%mass transfer%thermal efficiency
为以太阳能作为膜蒸馏驱动能源,在不同热工质温度与流量下进行气隙式膜蒸馏实验,建立膜蒸馏传热、传质过程的数学模型,并对该数学模型求解以验证其计算结果的正确性,计算了太阳能膜蒸馏系统的热效率.结果表明,该数学模型是可靠的,可以预测不同工况下膜蒸馏通量;热工质温度较高和流量较大时,膜蒸馏系统具有较高的热效率.
為以太暘能作為膜蒸餾驅動能源,在不同熱工質溫度與流量下進行氣隙式膜蒸餾實驗,建立膜蒸餾傳熱、傳質過程的數學模型,併對該數學模型求解以驗證其計算結果的正確性,計算瞭太暘能膜蒸餾繫統的熱效率.結果錶明,該數學模型是可靠的,可以預測不同工況下膜蒸餾通量;熱工質溫度較高和流量較大時,膜蒸餾繫統具有較高的熱效率.
위이태양능작위막증류구동능원,재불동열공질온도여류량하진행기극식막증류실험,건립막증류전열、전질과정적수학모형,병대해수학모형구해이험증기계산결과적정학성,계산료태양능막증류계통적열효솔.결과표명,해수학모형시가고적,가이예측불동공황하막증류통량;열공질온도교고화류량교대시,막증류계통구유교고적열효솔.
The air gap membrane distillation experiments under conditions of different temperature and working fluid flux were done by using solar power as driven-energy. The mathematical model of heat transfer and mass transfer of membrane distillation was established, and the correctness of the mathematical model was discussed and the thermal efficiency of membrane distillation system was calculated. Results show that the proposed model is reliable which can be used to forecast the flux of membrane dis-tillation under different experiment conditions. The membrane distillation system has higher thermal efficiency under conditions of higher temperature and more working fluid flux.
