Analysis of Design and Construction of Solid Oxide Fuel Cell in Terms of their Dynamic Operation

• Autorzy: Milewski J. , Lewandowski J.
• Języki publikacji: EN

Abstrakty

EN

The paper analyzes the use of planar type of Solid Oxide Fuel Cells (SOFCs) in terms of their dynamic operation. Sets out the main material (thermal capacity, thermal conductivity), flow parameters (gas compositions, flow velocity, accumulative volumes), and structural characteristics (capacity accumulative weight). It also presents the time constants of selected processes in the cells.

Słowa kluczowe

EN

solid oxide fuel cells (SOFCs)

• Wydawca: Komitet Termodynamiki i Spalania PAN
• Czasopismo: Archivum Combustionis
• Rocznik: 2010
• Tom: Vol. 30 nr 3
• Strony: 145--154
• Opis fizyczny: Bibliogr. 18 poz., rys., tab.

Twórcy

autor

Milewski J.

autor

Lewandowski J.

• Warsaw University of Technology, Institute of Heat Engineering, 21/25 Nowowiejska Street, 00-665 Warsaw, Poland,

Bibliografia

• [1] KRISHNASWAMY, S., GUNN, R. D., AGARWAL, K. P. Low-temperature oxidation of coal 2. An eprimental and modelling investigation using a fixed-bed isothermal flow reactor, Fuel, 1996, Vol. 75, No. 3, pp. 344-352. ISSN 0016-2361.
• [2] SUJANTI, W., ZHANG, D. A laboratory study of spontaneous combustion of coal: the influence of inorganic matter and reactor size. Fuel, 1999, Vol. 78, pp. 549-556. ISSN 0016-2361.
• [3] YUAN, L., SMITH, A. Numerical study on effects of coal properties on spontaneous heating in longwall gob areas, Fuel, 2008, Vol. 87, pp. 3409-3419. ISSN 0016-2361.
• [4] ARISOY, A. AKGUN, F. Modelling of spontaneous combustion of coal with moisture content included, Fuel, 1994, Vol. 73, pp. 281-286. ISSN 0016-2361.
• [5] KRAJČIOVÁ, M. JELEMENSKÝ, L., KIŠA, M., MARKOŠ, J. Model prediction on self-heating and prevention of stockpiled coals. Journal of Loss Prevention in the Process Industries, 2004, (17), pp. 205-216. ISSN 0950-4230.
• [6] ROSEMA, A., GUAN, H., VELD, H. Simulation of spontaneous combustion, to study the cause of coal fires in the Rujigou Basin. Fuel, 2001, Vol. 80, pp. 7-16. ISSN 0016-2361.
• [7] CYGANKIEWICZ, J. Badanie skłonności polskich węgli do samozapalenia metodą testu adiabatycznego. In Větrání a bezpečnost dolů, mezinárodní kongres, Ostrava, VŠB-TU Ostrava, 2000, str, 22-57.
• [8] FLUENT: Fluent 12 - User’s guide, Fluent Inc. 2007. VŠB-TU Ostrava. <URL:http:// http://spc.vsb.cz/portal/cz/documentation/manual/index.php>.
• [9] LIMING, Y., SMITH, A. C. CFD modeling of spontaneous heating in a large-scale coal chamber. Journal of Loss Prevention in the Process Industries. 22, 2009, p. 426-433. ISSN: 0950-4230.
• [10] MICHALEC, Z., TAUFER, A., TARABA B. Modelling spontaneous combustion of coal in the gob area of longwall face. In Mine ventilation, Ninth International Ventilation Congress, India, New Delhi, 2009 str. 335-341, ISBN 978-81-204-1749-6.
• [11] HORBAJ, P., MIKOLAJ, D., LAZIČ, L. Zjednodušený program na výpočet statiky spaľovania. In: Selected processes at the wood processing : 5. international symposium, Bobrovník, September 2004. Zvolen : Technical University in Zvolen, 2004. 6 p. ISBN 80-228-1328-1.
• [11] Xi H. Sun J. Tsourapas V. A control oriented low order dynamic model for planar SOFC using minimum gibbs free energy method. Journal of Power Sources, 156:253–266, 2007.
• [12] Huijuan Zhai Wanbing Guan Zhi Li Chen Xu Weiguo Wang. Research on performance of LSM coating on interconnect materials for SOFCs. Journal of the Korean Ceramic Society, 45(12):777–781, 2008.
• [13] A. Flemming and J. Adamy. Modeling solid oxide fuel cells using continuous-time recurrent fuzzy systems. Eng. Appl. Artif. Intell., 21(8):1289–1300, 2008.
• [14] S. Ahmad Hajimolana and Masoud Soroush. Dynamic behavior and control of a tubular solid-oxide fuel cell system. In ACC’09: Proceedings of the 2009 conference on American Control Conference, pages 2660–2665, Piscataway, NJ, USA, 2009. IEEE Press.
• [15] Rambabu Kandepu, Lars Imsland, Bjarne A. Foss, Christoph Stiller, Bjørn Thorud, and Olav Bolland. Modeling and control of a sofc-gt-based autonomous power system. Energy, 32(4):406 – 417, 2007. ECOS 05. 18th International Conference on Efficiency, Cost, Optimization, Simulation, and Environmental Impact of Energy Systems - ECOS 05.
• [16] Ying-Wei Kang, Jun Li, Guang-Yi Cao, Heng-Yong Tu, Jian Li, and Jie Yang. Dynamic temperature modeling of an sofc using least squares support vector machines. Journal of Power Sources, 179(2):683 – 692, 2008.
• [17] Ying-Wei Kang, Jun Li, Guang-Yi Cao, Heng-Yong Tu, Jian Li, and Jie Yang. A reduced 1d dynamic model of a planar direct internal reforming solid oxide fuel cell for system research. Journal of Power Sources, 188(1):170 – 176, 2009.
• [18] Schell M. Characterization of part-load performance of a combined gas turbine and solid oxide fuel cell. Technical report, European Fundation for Power Engineering, 2005.