电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2010年
2期
167-170
,共4页
尹春香%张守海%邢东博%张本贵%蹇锡高
尹春香%張守海%邢東博%張本貴%蹇錫高
윤춘향%장수해%형동박%장본귀%건석고
杂萘联苯聚醚酮%阴离子交换膜%季铵化%全钒液流电池
雜萘聯苯聚醚酮%陰離子交換膜%季銨化%全釩液流電池
잡내련분취미동%음리자교환막%계안화%전범액류전지
poly (phthalazinone ether ketone)%anion exchange membrane%quatemization%vanadium redox flow battery
以氯甲基化杂萘联苯聚醚酮(CMPPEK)为膜材料,通过溶液法制备了CMPPEK基膜,然后将其浸泡在三甲胺水溶液中进行季铵化反应得到季铵化杂萘联苯聚醚酮(QAPPEK)阴离子交换膜.比较了CMPPEK和QAPPEK的热失重性能,CMPPEK的5%热失重温度为330 ℃,QAPPEK的5%热失重温度为260 ℃,QAPPEK的5%热失重温度与CMPPEK的相比降低了70℃.考察了三甲胺浓度、胺化时间、胺化温度等反应条件对QAPPEK膜性能的影响.结果表明:三甲胺的质量分数为33%、胺化时间为12 h、胺化温度为40℃时.得到的QAPPEK膜表现出了较优异的性能,其IEC值达1.64 mmol/g,在2 mol/LVOSO_4+3 mol/L H_2SO_4的混合溶液中测得的面电阻为0.73Ω· cm~2应用于全钒液流电池(VRB)中,电池的能量效率高达85.9%,电流效率为98.4%,电压效率为87.3%.
以氯甲基化雜萘聯苯聚醚酮(CMPPEK)為膜材料,通過溶液法製備瞭CMPPEK基膜,然後將其浸泡在三甲胺水溶液中進行季銨化反應得到季銨化雜萘聯苯聚醚酮(QAPPEK)陰離子交換膜.比較瞭CMPPEK和QAPPEK的熱失重性能,CMPPEK的5%熱失重溫度為330 ℃,QAPPEK的5%熱失重溫度為260 ℃,QAPPEK的5%熱失重溫度與CMPPEK的相比降低瞭70℃.攷察瞭三甲胺濃度、胺化時間、胺化溫度等反應條件對QAPPEK膜性能的影響.結果錶明:三甲胺的質量分數為33%、胺化時間為12 h、胺化溫度為40℃時.得到的QAPPEK膜錶現齣瞭較優異的性能,其IEC值達1.64 mmol/g,在2 mol/LVOSO_4+3 mol/L H_2SO_4的混閤溶液中測得的麵電阻為0.73Ω· cm~2應用于全釩液流電池(VRB)中,電池的能量效率高達85.9%,電流效率為98.4%,電壓效率為87.3%.
이록갑기화잡내련분취미동(CMPPEK)위막재료,통과용액법제비료CMPPEK기막,연후장기침포재삼갑알수용액중진행계안화반응득도계안화잡내련분취미동(QAPPEK)음리자교환막.비교료CMPPEK화QAPPEK적열실중성능,CMPPEK적5%열실중온도위330 ℃,QAPPEK적5%열실중온도위260 ℃,QAPPEK적5%열실중온도여CMPPEK적상비강저료70℃.고찰료삼갑알농도、알화시간、알화온도등반응조건대QAPPEK막성능적영향.결과표명:삼갑알적질량분수위33%、알화시간위12 h、알화온도위40℃시.득도적QAPPEK막표현출료교우이적성능,기IEC치체1.64 mmol/g,재2 mol/LVOSO_4+3 mol/L H_2SO_4적혼합용액중측득적면전조위0.73Ω· cm~2응용우전범액류전지(VRB)중,전지적능량효솔고체85.9%,전류효솔위98.4%,전압효솔위87.3%.
A novel anion-exchange membrane material quatemized poly (phthalazinone ether ketone) (QAPPEK) was prepared with trimethylamine (TMA) by inducting quatemary nitrogen groups into the chloromethylated poly (phthalazinone ether ketone) (CMPPEK). It is found that the thermal performance of QAPPEK decreases slightly compared with CMPPEK. The temperature of 5% weight loss of CMPPEK and QAPPEK are 330 ℃ and 260 ℃respectively. The effects of amination concentration, amination temperature and amination time on the properties of QAPPEK membrane were investigated. The results show that the QAPPEK membrane has the best performance prepared at 33% trimethylamine under 40 ℃ amination temperature for 12 h, and the ion exchange capacity (IEC) and membrane area resistance (R) tasted in 2 mol/LVOSO_4+3 mol/LH_2SO_4 can reach 1.64 mmol/g and 0.73 Ω·cm~2,respectively. When QAPPEK membrane is applied to vanadium redox flow battery, the energy efficiency, current efficiency and voltage efficiency of the battery can reach 85.9%, 98.4% and 87.3%, respectively.