CAJ | 학술논문

该文探讨一种环保的、可连续生产的适合熔融碳酸盐燃料电池（molten carbonate fuel cell，MCFC）使用要求的烧结电极制备方法，以泡沫镍和冲孔镀镍钢带为支撑体，聚乙烯醇与羧甲基纤维素钠的混合溶液作为黏结剂，T255羰基镍粉为导电活性材料，运用拉浆法在不同的烧结温度下制备MCFC电极。在此基础上，采用煤油浸入法测量了制备电极的孔隙率，利用扫描电镜分析电极的微观形貌，通过热重分析仪测试镍浆的失重和热流变化，并对组装后MCFC中电极的电化学性能进行测试。测试结果表明，以镀镍钢带为支撑体的电极较泡沫镍电极具有更好的强度和电化学性能，在一定的烧结条件下，采用拉浆工艺能够制备满足MCFC要求的电极。
해문탐토일충배보적、가련속생산적괄합용융탄산염연료전지（molten carbonate fuel cell，MCFC）사용요구적소결전겁제비방법，이포말얼화충공도얼강대위지탱체，취을희순여최갑기섬유소납적혼합용액작위점결제，T255탄기얼분위도전활성재료，운용랍장법재불동적소결온도하제비MCFC전겁。재차기출상，채용매유침입법측량료제비전겁적공극솔，이용소묘전경분석전겁적미관형모，통과열중분석의측시얼장적실중화열류변화，병대조장후MCFC중전겁적전화학성능진행측시。측시결과표명，이도얼강대위지탱체적전겁교포말얼전겁구유경호적강도화전화학성능，재일정적소결조건하，채용랍장공예능구제비만족MCFC요구적전겁。
In order to explore an environmentally friendly approach to produce sintered electrodes that could be prepared continuously and could meet the requirements of MCFC, pasting slurry technique was adopted at different sintering temperature with nickel or nickel-plated punched steel sheet being the supporting material in the electrodes, aqueous solution of polyvinyl alcohol （PVA） and Carboxymethyl cellulose sodium （CMC） as the agglomerant, and T255 nickel carbonyl as the active substrate. And then, some testing methods such as kerosene immerging and scanning electron microscope （SEM） were used to test the rate of hole and the pattern of the electrodes. In addition, Thermogravimetric method was employed to test the heat and mass change of nickel slurry and electrochemistry performance of the single cell in assembled molten carbonate fuel cell （MCFC）. The testing results show that the punched steel sheet electrode has better strength and electrochemistry performance than that of foam nickel; therefore, pasting slurry technique could prepare excellent electrodes required by MCFC in definite sintering conditions.