化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
9期
2120-2125
,共6页
王宝辉%洪美花%吴红军%罗明检%苑丹丹%董维
王寶輝%洪美花%吳紅軍%囉明檢%苑丹丹%董維
왕보휘%홍미화%오홍군%라명검%원단단%동유
熔盐电解%二氧化碳%碳燃料%资源化利用
鎔鹽電解%二氧化碳%碳燃料%資源化利用
용염전해%이양화탄%탄연료%자원화이용
molten salt electrolysis%carbon dioxide%carbon fuel%resource utilization
通过电解高温熔融Li0.896Na0.625K0.479CO3混合碳酸盐制取碳燃料,并由中间产物Li2O、Na2O、K2O吸收空气中CO2使碳酸盐电解质再生,从而构筑一个完美的良性循环,最终将CO2转化为C物质。实验通过极化曲线、循环伏安曲线对反应的电化学性能进行了研究,考察了电极材质、电解温度以及相同电量下不同电流强度和电解时间对反应结果的影响,并借助SEM-EDS、TG/DTA、XRD等手段对提纯后的产物进行表征。结果表明:Fe作阴极、Ni作阳极时的电势值较低、电极稳定性较好;随温度的升高,电势的绝对值降低,温度为500℃时对反应较有利;1 A·h的电量下,电流强度1.0 A、电解时间1 h时,反应的电流效率较高,可达65.98%;电解产物为无定形碳,含碳量可达80%以上。本研究为二氧化碳的资源化利用提供了一种新途径。
通過電解高溫鎔融Li0.896Na0.625K0.479CO3混閤碳痠鹽製取碳燃料,併由中間產物Li2O、Na2O、K2O吸收空氣中CO2使碳痠鹽電解質再生,從而構築一箇完美的良性循環,最終將CO2轉化為C物質。實驗通過極化麯線、循環伏安麯線對反應的電化學性能進行瞭研究,攷察瞭電極材質、電解溫度以及相同電量下不同電流彊度和電解時間對反應結果的影響,併藉助SEM-EDS、TG/DTA、XRD等手段對提純後的產物進行錶徵。結果錶明:Fe作陰極、Ni作暘極時的電勢值較低、電極穩定性較好;隨溫度的升高,電勢的絕對值降低,溫度為500℃時對反應較有利;1 A·h的電量下,電流彊度1.0 A、電解時間1 h時,反應的電流效率較高,可達65.98%;電解產物為無定形碳,含碳量可達80%以上。本研究為二氧化碳的資源化利用提供瞭一種新途徑。
통과전해고온용융Li0.896Na0.625K0.479CO3혼합탄산염제취탄연료,병유중간산물Li2O、Na2O、K2O흡수공기중CO2사탄산염전해질재생,종이구축일개완미적량성순배,최종장CO2전화위C물질。실험통과겁화곡선、순배복안곡선대반응적전화학성능진행료연구,고찰료전겁재질、전해온도이급상동전량하불동전류강도화전해시간대반응결과적영향,병차조SEM-EDS、TG/DTA、XRD등수단대제순후적산물진행표정。결과표명:Fe작음겁、Ni작양겁시적전세치교저、전겁은정성교호;수온도적승고,전세적절대치강저,온도위500℃시대반응교유리;1 A·h적전량하,전류강도1.0 A、전해시간1 h시,반응적전류효솔교고,가체65.98%;전해산물위무정형탄,함탄량가체80%이상。본연구위이양화탄적자원화이용제공료일충신도경。
This paper investigated the production of fuel level carbon by electrolysis of molten carbonate mixture Li0.896Na0.625K0.479CO3 at high temperature and the regeneration of carbonate electrolyte by the intermediate products Li2O,Na2O,and K2O,with the absorption of CO2. The electrochemical properties of the reaction were analyzed by cyclic voltammetry and polarization curve. The effects of electrode material,reaction temperature,different current intensities and electrolytic time under same electric quantity in the reaction were also investigated. The surface morphology , composition and phase structure of the electrolysis products were characterized by SEM-EDS , TG/DTA,and XRD. The experimental results showed that the electrode potential decreased as temperature increased with a high electrode stability when Fe was used as cathode and Ni as anode. The preferable reaction temperature was 500 ℃. At the current intensity of 1.0 A and the electrolytic time of 1h,the current efficiency reached 65.98%and the obtained amorphous carbon was higher than 80%.
