基于Sr2Fe1.5Mo0.5O6的对称固体氧化物燃料电池制备及性能任务书
2020-04-17 20:28:25
1. 毕业设计(论文)的内容和要求
1、内容: 固体氧化物燃料电池(sofc)因其高效率、无污染、全固态结构和对多种燃料气体的广泛适应性等,有着广阔的市场前景。
传统的金属陶瓷基阳极材料虽然在使用氢气燃料时性能优异,但在使用碳氢燃料时会出现严重的积碳问题。
钙钛矿阳极可以克服碳沉积、镍烧结及硫中毒等金属陶瓷阳极的系列问题。
2. 参考文献
[1] B.C.H. Steele, A. Heinzel. Materials for fuel-cell technologies. Nature, 414 (2001), pp. 345-352 [2] B.C.H. Steele. Fuel-cell technology: running on natural gas. Nature, 400 (1999), pp. 619-621 [3] S. Park, J.M. Vohs, R.J. Gorte. Direct oxidation of hydrocarbons in a solid-oxide fuel cell. Nature, 404 (2000), pp. 265-267 [4] E.P. Murray, T. Tsai, S.A. Barnett. A direct-methane fuel cell with a ceria-based anode. Nature, 400 (1999), pp. 649-651 [5] V. Lawlor, S. Griesser, G. Buchinger, A.G. Olabi, S. Cordiner, D. Meissner. Review of the micro-tubular solid oxide fuel cell (Part I. Stack design issues and research activities). J. Power Sources, 193 (2009), pp. 387-399 [6] Y. Bai, J. Liu, H. Gao, C. Jin. Dip coating technique in fabrication of cone-shaped anode-supported solid oxide fuel cells. J. Alloys Compd., 480 (2009), pp. 554-557 [7] Z.Y. Han, Y.H. Wang, Z.B. Yang, M.F. Han. Electrochemical properties of tubular SOFC based on a porous ceramic support fabricated by phase-inversion method. J. Mater. Sci. Technol., 32 (2016), pp. 681-686 [8] Z.Y. Han, Z.B. Yang, M.F. Han. Fabrication of metal-supported tubular solid oxide fuel cell by phase-inversion method and in situ reduction. Int. J. Hydrogen Energy, 41 (2016), pp. 10935-10941 [9] J. Ding, J. Liu, G.Q. Yin. Fabrication and characterization of low-temperature SOFC stack based on GDC electrolyte membrane. J. Membr. Sci., 371 (2011), pp. 219-225 [10] J.D. Nicholas, L.C. De Jonghe. Prediction and evaluation of sintering aids for cerium gadolinium oxide. Solid State Ionics, 178 (2007), pp. 1187-1194 [11] S.H. Park, H.I. Yoo. Defect-chemical role of Mn in Gd-doped CeO2. Solid State Ionics, 176 (2005), pp. 1485-1490 [12] D.P. Fagg, J.C.C. Abrantes, D. P#233;rez-Coll, P. N#250;#241;ez, V.V. Kharton, J.R. Frade. The effect of cobalt oxide sintering aid on electronic transport in Ce0.80Gd0.20O2#8722;δ electrolyte. Electrochim. Acta, 48 (2003), pp. 1023-1029 [13] T.S. Zhang, J. Ma, L.B. Kong, S.H. Chan, P. Hing, J.A. Kilner. Iron oxide as an effective sintering aid and a grain boundary scavenger for ceria-based electrolytes. Solid State Ionics, 167 (2004), pp. 203-207 [14] V. Gil, J. Tartaj, C. Moure, P. Dur#225;n. Sintering, microstructural development, and electrical properties of gadolinia-doped ceria electrolyte with bismuth oxide as a sintering aid. J. Eur. Ceram. Soc., 26 (2006), pp. 3161-3171 [15] Z. Liu, Z. Lei, S.D. Song, L. Yu, M.F. Han. Doped zirconia/ceria electrolyte fabricated at low temperature. Prog. Chem., 23 (2011), pp. 470-476
3. 毕业设计(论文)进程安排
起讫日期 设计(论文)各阶段工作内容 备 注 2月25日 ~3月3日 确定课题,布置任务,阅读文献资料,并进一步检索文献。
3月4日 ~3月17日 翻译英文文献,完成开题报告;制订实验计划,了解实验仪器设备及实验方法。
3月18日 ~ 3月24日 修改开题报告及英文文献翻译,进行开题,根据意见完善实验计划。
您可能感兴趣的文章
- 蒸养纤维掺杂高铁低钙水泥混凝土的抗海水冲磨性能研究文献综述
- TIPA对水泥-锂渣体系力学性能和水化性能的影响外文翻译资料
- TEA对锂渣-水泥复合粘结剂流变性能及水化性能的影响外文翻译资料
- 硫酸铝无碱液体促进剂的效果研究烷醇胺对硅酸盐水泥水化过程的影响外文翻译资料
- 新型C-A-S-H/PCE纳米复合材料:设计表征和对水泥水化的影响外文翻译资料
- 工业中碳捕获技术以及以水泥回转窑作为核心的吸附再生器外文翻译资料
- Ca/Al层状双氢氧化物的制备及其结构对水泥早期强度的影响外文翻译资料
- 蒸汽养护后混凝土养护方法对混凝土机械强度和透气性的影响外文翻译资料
- 含白云石或石灰石的偏高岭土水泥在相组成与抗压强度的异同外文翻译资料
- 与硅质铁尾矿结合的混凝土的耐久性外文翻译资料