This study investigates the transport resistance of fouling layer formed during concentrating the extract of traditional Chinese medicine (TCM) by direct contact membrane distillation (DCMD). Empirical equations for calculating the physical properties of TCM extract were combined with the heat transfer equations of DCMD to describe the concentrating process These equations were solved through an iterative computer program to obtain the thermal resistance of fouling layer and interface temperatures Based on the experimental and calculated results, factors affecting the thermal resistance of fouling layer were identified and discussed. It was found that membrane fouling in this study was mainly caused by the deposition of suspended solid particles in TCM extract A porous fouling layer covers the membrane surface, introducing an additional thermal resistance to overall heat transfer in DCMD For a batch operated concentrating process, the flux declines faster with increasing feed temperature and feed flow velocity, due to the faster increase of foulants concentration in the feed However, the comparison of the relationships between fouling resistance and concentration ratio obtained under different conditions reveals that the growth of fouling layer can be effectively limited by increasing either the feed temperature or feed flow velocity (C) 2010 Elsevier B V All rights reserved
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机译:本研究研究了中药提取物直接接触膜蒸馏(DCMD)浓缩过程中形成的污垢层的运输阻力。结合计算中药提取物物理性质的经验方程与DCMD的传热方程来描述浓缩过程,通过迭代计算机程序求解这些方程,得到污垢层的热阻和界面温度,在实验和计算结果的基础上,识别并讨论了影响污垢层热阻的因素。研究发现,本研究中膜结垢主要是由中药提取物中悬浮固体颗粒的沉积引起的,膜表面覆盖着多孔污垢层,为DCMD的整体传热引入了额外的热阻 对于间歇式浓缩过程,随着进料温度和进料流速的增加,通量下降得更快, 由于进料中污垢浓度的增加较快 然而,通过比较不同条件下得到的抗污性与浓度比之间的关系,可以看出,通过提高进料温度或进料流速(C)可以有效限制污垢层的生长 2010 Elsevier B V 版权所有
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