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引言 醇/水体系分离一直是化工生产中的重要环节,高效的醇/水分离技术能够使醇的产量大大提高,满足日益增长的工业生产需求.传统的分离方法如精馏、萃取等已经相当成熟,但是这些方法在工业生产过程中能耗巨大,越来越受到面临能源资源匮乏的当代社会的关注和制约.在此背景下,面向高效、节能的新型膜接触分离器应运而生,如Alan等[1]指出,工业化或半工业化的过程已经包括膜吸收、膜萃取以及渗透蒸馏等多个耦合分离单元[2-6]. 相似文献
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采用聚丙烯中空纤维膜接触器作为新型精馏结构填料对甲醇水溶液体系进行了精馏分离过程的实验研究,探讨了填充密度对中空纤维膜接触器分离性能和过程传质的影响.结果表明,填充密度为4.7%时,接触器塔顶甲醇浓度比填充密度为9.5%时的高,且两种填充密度的膜接触器组件均可在远离常规填料液泛线以上的气速范围操作.随着气速逐步增大,传质单元高度变大,壳程气相传质系数随之变大,填充密度高的组件的气相传质系数较小. 相似文献
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The performance of different nanofiltration (NF) and reverse osmosis (RO) membranes was studied in treating the toxic metal effluent from metallurgical industry. The characteristics and filtration behavior of the processes including the wastewater flux, salt rejection and ion rejection versus operating pressure were evaluated. Then the wastewater flux of RO membrane was compared with theoretical calculation using mass transfer models, and good consistency was observed. It was found that a high rejection rate more than 95% of metal ions and a low Chemical Oxygen Demand (COD) value of 10 mg·L^-1 in permeate could be achieved using the RO composite membrane, while the NF rejection of the salt could be up to 78.9% and the COD value in the permeate was 35 mg·L^-1. The results showed that the product water by both NF and RO desalination satisfied the State Reutilization Qualification, but NF would be more suitable for large-scale industrial practice, which offered significantly higher permeate flux at low operating pressure. 相似文献
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Acrylic acid was graft-copolymerized onto Rhi. oryzae's cell wall structural polysaccharide directly and efficiently in aqueous solution with ceric ammonium nitrate as initiator. The maximal grafting percentage of 135.5% was obtained under the condition of [Ce4 ]=5mmol·L-1, [AA]=1 mol·L-1, T=60℃ and t=3h. Graft copolymerization was suggested to proceed through free radical reaction mechanism. Grafting occurred primarily on chitosan. Acrylic acid was also attempted to be grafted onto Asp. niger cell wall structural polysaccharide, and only 44.2% of grafting percentage was resulted. 相似文献
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凝胶包埋大鼠肝细胞用于醋氨酚肝毒性研究 总被引:1,自引:0,他引:1
以传统的多孔板贴壁培养为比较对象,采用醋氨酚为肝毒性药物模型,评价胶原凝胶包埋培养大鼠肝细胞用于药物肝毒性研究的可行性.结果发现,虽然多孔板培养和凝胶包埋培养肝细胞均表现出对醋氨酚肝毒性的浓度依赖性,但前者对毒性的敏感程度比后者小得多.在同样低浓度(2.5 mmol/L)的醋氨酚作用24 h后,胶原凝胶包埋的细胞活率下降到了对照组的35%,单层贴壁培养细胞的活率仅下降到了对照组的88%;以尿素和白蛋白合成能力表征的肝功能也出现同样趋势.此外,N-乙酰半胱氨酸(NAC)与甘草酸(GA)与醋氨酚一起加到培养基中能显著抑制醋氨酚导致的肝毒性,进一步说明凝胶包埋培养肝细胞可以反映保肝药物的临床作用. 相似文献
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对中空纤维膜接触器空间结构的分析与探讨 总被引:2,自引:1,他引:1
介绍了中空纤维膜接触器在气体分离、净化以及精馏结构填料替代等方面研究的最新进展,并结合笔者所进行的实验工作,从膜接触器中体系的流动方式、壳程挡板、纤维膜组器的填充密度等方面详细探讨了中空纤维膜接触器的空间结构对于过程传质和分离效果的影响.分析结果表明,在气液接触分离过程中,为有效提高膜接触分离过程的传质系数,大多数研究采用了平流中的逆流方式;壳程挡板的增设可以促进过程的分离效果,但其作用并非始终随挡板数量的增加而增强;膜组器填充密度对壳程传质的影响明显,且大多数实验结果表明,过程分离的总传质系数随填充密度的增加而减小. 相似文献