当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2013年
8期
1072-1075,1096
,共5页
戴玺%郭瓦力%张弢%李磊%王晓冰%朱虹%邓信忠
戴璽%郭瓦力%張弢%李磊%王曉冰%硃虹%鄧信忠
대새%곽와력%장도%리뢰%왕효빙%주홍%산신충
能源%硼氢化钠%碳毡%电解法%电极
能源%硼氫化鈉%碳氈%電解法%電極
능원%붕경화납%탄전%전해법%전겁
Energy%Sodium borohydride%Carbon felt%Electrolysis%Eectrode
通过循环伏安法研究了聚丙烯腈碳毡电极用于电解法硼氢化钠制备的可行性,以硼氢化钠实际生成量为指标,研究了在恒流,脉冲条件下碳毡电极对电解反应生成量的影响,针对碳毡电极本身的物理特性考察了碳毡的新旧程度对电解反应的影响,考察了电极孔隙电解液和电解槽中电解液中硼氢化钠生成量的差别。研究结果表明:碳毡电极独特的物理结构改善了阴极对BO2-排斥,对BO2-在阴极上发生还原生成硼氢化钠有很好的促进作用;电极排斥力与碳毡吸附力共同作用于阴极上的BO2-还原,因此一定电流强度下硼氢化钠生成量存在极大值;相比于电解槽内电解液,碳毡孔隙内硼氢化钠含量明显增多,最多可达到槽内电解液中硼氢化钠含量的22.7倍。
通過循環伏安法研究瞭聚丙烯腈碳氈電極用于電解法硼氫化鈉製備的可行性,以硼氫化鈉實際生成量為指標,研究瞭在恆流,脈遲條件下碳氈電極對電解反應生成量的影響,針對碳氈電極本身的物理特性攷察瞭碳氈的新舊程度對電解反應的影響,攷察瞭電極孔隙電解液和電解槽中電解液中硼氫化鈉生成量的差彆。研究結果錶明:碳氈電極獨特的物理結構改善瞭陰極對BO2-排斥,對BO2-在陰極上髮生還原生成硼氫化鈉有很好的促進作用;電極排斥力與碳氈吸附力共同作用于陰極上的BO2-還原,因此一定電流彊度下硼氫化鈉生成量存在極大值;相比于電解槽內電解液,碳氈孔隙內硼氫化鈉含量明顯增多,最多可達到槽內電解液中硼氫化鈉含量的22.7倍。
통과순배복안법연구료취병희정탄전전겁용우전해법붕경화납제비적가행성,이붕경화납실제생성량위지표,연구료재항류,맥충조건하탄전전겁대전해반응생성량적영향,침대탄전전겁본신적물리특성고찰료탄전적신구정도대전해반응적영향,고찰료전겁공극전해액화전해조중전해액중붕경화납생성량적차별。연구결과표명:탄전전겁독특적물리결구개선료음겁대BO2-배척,대BO2-재음겁상발생환원생성붕경화납유흔호적촉진작용;전겁배척력여탄전흡부력공동작용우음겁상적BO2-환원,인차일정전류강도하붕경화납생성량존재겁대치;상비우전해조내전해액,탄전공극내붕경화납함량명현증다,최다가체도조내전해액중붕경화납함량적22.7배。
The feasibility of using polyacrylonitrile carbon felt electrode for sodium borohydride preparation from sodium metaborate electrolysis was studied by means of cyclic voltammetry. Effects of the felt electrode on electrolysis reaction were investigated under constant current or pulsed conditions,in which the actual production of sodium borohydride was taken as an experiment indicator. Considering the physical properties of carbon felt electrode,the effects of electrolysis reaction according to the age of polyacrylonitrile felt electrode and the sodium borohydride concentration difference between the electrolytes both in electrode pore and in electrolytic cell were also discussed. The results show that the unique physical structure of carbon felt electrode can be used to solve the problem of BO2-exclusion on cathode well, which plays an important role in promoting BO2-cathode restore to generate sodium borohydride. Because of the electrode repulsion and carbon fiber felt adsorption force acting on the BO2-reduction on the cathode,there is a maximum value of sodium borohydride production to some extent of current intensity.Compared with the electrolyte in electrolytic cell, the content of sodium borohydride in the pores of the carbon felt can be 22.7 times as much as the content in the electrolyzer.