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静电场激励液-液体系相间铜反萃传质特性
引用本文:纪存兴,石磊,李金英,赵志军,侯艳丽,唐占梅,李中平,凡金龙,张东翔. 静电场激励液-液体系相间铜反萃传质特性[J]. 原子能科学技术, 2010, 44(8): 953-957. DOI: 10.7538/yzk.2010.44.08.0953
作者姓名:纪存兴  石磊  李金英  赵志军  侯艳丽  唐占梅  李中平  凡金龙  张东翔
作者单位:1.中国原子能科学研究院,北京102413;2.中国核工业集团公司,北京100822;3.中国北车集团 ;北京二七轨道交通装备有限责任公司 ;技术中心,北京100072;4.中国科学院 ;兰州地质研究所 ;地球化学测试部,甘肃 ;兰州730000;5.西北核技术研究所,陕西 ;西安710024;6. ;北京理工大学,北京100081
摘    要:在改进的传质池中通过在线检测草酸浓度,应用瞬时传质系数与平均传质系数,研究了各种方向及组合、不同电压、电极板形状与面积等条件下静电场对体系Cu2+-HDEHP-CCl4/H2O-H2C2O4伴随生成CuC2O4的传质过程特性。外场电压变化、电极面积可改变相间的传质速率,与传质方向成45°夹角的静电场作用对相界面传质速率的影响更为显著,表明相间传质阻力结构或相间传质层具有各向异性。

关 键 词:传质   静电场   界面反应  

Mass Transfer Properties of Interface in Cu2+ Liquid-Liquid Re-extraction With Static Electrical Field
JI Cun-xing,SHI Lei,LI Jin-ying,ZHAO Zhi-jun,HOU Yan-li,TANG Zhan-mei,LI Zhong-ping,FAN Jin-long,ZHANG Dong-xiang. Mass Transfer Properties of Interface in Cu2+ Liquid-Liquid Re-extraction With Static Electrical Field[J]. Atomic Energy Science and Technology, 2010, 44(8): 953-957. DOI: 10.7538/yzk.2010.44.08.0953
Authors:JI Cun-xing  SHI Lei  LI Jin-ying  ZHAO Zhi-jun  HOU Yan-li  TANG Zhan-mei  LI Zhong-ping  FAN Jin-long  ZHANG Dong-xiang
Affiliation:1.China Institute of Atomic Energy, Beijing 102413, China; 2.China National Nuclear Corporation, Beijing 100822, China; 3.Beijing 27th Locomotive Works, Beijing 100072, China; 4.Lanzhou Institute of Geology, Chinese Academy of Sciences, Lanzhou 730000, China; 5.Northwest Nuclear Institute of Nuclear Technology, Xi’an 710024, China; 6.School of Chemical Engineering & Environment, Beijing Institute of Technology, Beijing 100081, China
Abstract:Copper re extraction with oxalic acid from organic phase including Cu2+-HDEHP in tetrachloride carbon in a modified Lewis cell was studied. The concentration of oxalic acid was investigated by on-line detection using the method of conductance. The instantaneous and average coefficient of mass transfer were used to study the influence on interfacial mass transfer process by employing different direction, voltage, plate electrode and different area or their combination in Lewis cell. The research indicates that variation of voltage and electrode area can affect the velocity of mass transfer. But the electric field which moves an angle of 45° from the direction of mass transfer or their combination has prominent impact on interfacial mass transfer. It shows that the configuration of mass transfer resistance or interfacial layer has the characteristic of aeolotropism.
Keywords:mass transfer  electrostatic field  interface reaction  copper
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