Simulation of binary vapor condensation in the presence of an inert gas

Letters in Heat and Mass Transfer Pub Date : 1982-11-01 DOI:10.1016/0094-4548(82)90017-0
Ross Taylor, Matthew K. Noah
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引用次数: 0

Abstract

Two recently developed simplified models of multicomponent mass transfer are employed to determine the composition profiles during the condensation of a binary vapor (methanol-water) from an inert gas (air or helium). It is found that the profiles and the predicted outlet conditions are in excellent agreement with the results obtained using an exact solution of the Maxwell-Stefan equations to predict the mass transfer rates. It is concluded that the simplified approach to multicomponent mass transfer calculations will probably be adequate for many design problems, thereby realising important savings in computational time and computer program complexity.

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在惰性气体存在下二元蒸汽冷凝的模拟
采用两个最近发展的简化的多组分传质模型来确定从惰性气体(空气或氦气)中冷凝二元蒸汽(甲醇-水)过程中的成分分布。结果表明,用麦克斯韦-斯特芬方程的精确解预测传质速率,得到的曲线和预测的出口条件与计算结果非常吻合。结论是,多组分传质计算的简化方法可能适用于许多设计问题,从而大大节省了计算时间和计算机程序的复杂性。
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Letters in Heat and Mass Transfer
Letters in Heat and Mass Transfer
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