储能科学与技术
儲能科學與技術
저능과학여기술
Energy Storage Science and Technology
2015年
3期
241-247
,共7页
冯彩梅%陈永翀%韩立%巩宇%Cserháti Csaba%Csik Attila
馮綵梅%陳永翀%韓立%鞏宇%Cserháti Csaba%Csik Attila
풍채매%진영충%한립%공우%Cserháti Csaba%Csik Attila
储能%锂离子液流电池%电极悬浮液%性能
儲能%鋰離子液流電池%電極懸浮液%性能
저능%리리자액류전지%전겁현부액%성능
energy storage%lithium-ion flow battery%electrode suspension%performance
锂离子液流电池将锂离子电池的工作原理与传统液流电池的结构特点相结合,是一种正处于基础技术开发阶段的新型电化学储能电池技术,具有输出功率和储能容量彼此独立、成本较低等特点,适用于未来电网储能领域。电极悬浮液作为实现锂离子液流电池充放电功能的主体材料,其导电性能和流动性能是影响锂离子液流电池倍率特性和能量密度的重要因素。论文结合实验数据对该方向面临的主要技术问题及研究重点进行了分析,认为电极悬浮液的研究需要从导电机理、质量比容量、流变性能等方面进一步深入研究,并建立标准评价体系。
鋰離子液流電池將鋰離子電池的工作原理與傳統液流電池的結構特點相結閤,是一種正處于基礎技術開髮階段的新型電化學儲能電池技術,具有輸齣功率和儲能容量彼此獨立、成本較低等特點,適用于未來電網儲能領域。電極懸浮液作為實現鋰離子液流電池充放電功能的主體材料,其導電性能和流動性能是影響鋰離子液流電池倍率特性和能量密度的重要因素。論文結閤實驗數據對該方嚮麵臨的主要技術問題及研究重點進行瞭分析,認為電極懸浮液的研究需要從導電機理、質量比容量、流變性能等方麵進一步深入研究,併建立標準評價體繫。
리리자액류전지장리리자전지적공작원리여전통액류전지적결구특점상결합,시일충정처우기출기술개발계단적신형전화학저능전지기술,구유수출공솔화저능용량피차독립、성본교저등특점,괄용우미래전망저능영역。전겁현부액작위실현리리자액류전지충방전공능적주체재료,기도전성능화류동성능시영향리리자액류전지배솔특성화능량밀도적중요인소。논문결합실험수거대해방향면림적주요기술문제급연구중점진행료분석,인위전겁현부액적연구수요종도전궤리、질량비용량、류변성능등방면진일보심입연구,병건립표준평개체계。
The research progress in electrode suspensions of lithium-ion flow battery (LFB) was reviewed. LFB combines the working principles of lithium-ion battery and the structure characteristics of redox flow battery, with the independent power output and storage capacity, large energy density and comparatively low cost. LFB is suitable for the application in the future grid energy storage systems. For the LFB, the electrode suspension is one of the most important functional materials, because its conductive and rheological properties determine the energy density and rate performance of the battery. The technical bottlenecks and the research focuses were analyzed on the basis of the experimental data. The conductive mechanism, the specific capacity and the rheological properties are the important research contents of the electrode suspension for the establishment of a unified evaluation system.
