固体氧化物电解水制氢系统效率  被引量:44

Efficiency of solid oxide water electrolysis system for hydrogen production

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作  者:刘明义[1] 于波[1] 徐景明[1] 

机构地区:[1]清华大学核能与新能源技术研究院,北京100084

出  处:《清华大学学报(自然科学版)》2009年第6期868-871,共4页Journal of Tsinghua University(Science and Technology)

基  金:教育部博士点专项新教师基金项目(No.20070003033)

摘  要:电解水与高效清洁一次能源耦合制氢,是理想的大规模制氢技术。该文建立了电解水制氢系统效率评估模型,并通过该模型对碱性、固体聚合物电解池(SPE)及固体氧化物电解池(SOEC)制氢系统总制氢效率进行了计算与分析。碱性制氢系统电解效率与总制氢效率均较低,分别为56%和25%;SPE制氢系统电解效率虽有提高约76%,但其总制氢效率仍较低约35%;而SOEC制氢系统电解效率可达90%以上,总制氢效率高达55%,分别是SPE与碱性制氢系统的1.5和2倍。高温气冷堆耦合的SOEC电解制氢系统是目前已知总制氢效率最高的大规模制氢系统。Water electrolysis coupled with an efficient and clean primary energy source is an ideal large-scale hydrogen production technology. A model was developed to predict the efficiency of a water electrolysis system for hydrogen production based on the overall efficiency of an alkaline electrolysis system, a solid polymer electrolyte (SPE) system, and a solid oxide electrolysis cell (SOEC) system. The results show that both the electrolysis efficiency, 56%, and the overall efficiency, 25%, are very low. The electrolysis efficiency, 76%, of the SPE system is improved, the overall efficiency, 35%, is still low. However, the electrolysis efficiency of the SOEC is more than 90% and the overall efficiency is over 55%, both are much higher than the other systems. The overall efficiency of a high-temperature gas-cooled reactor coupled with an SOEC system is the highest among all existing water electrolysis systems.

关 键 词:氢能 电解水制氢 效率分析 碱性电解池 固体聚合物电解池 固体氧化物电解池 

分 类 号:TK91[动力工程及工程热物理] TQ151[化学工程—电化学工业]

 

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