Experimental Study on the Preferential Oxidation Reactor Performance Using a Water Cooling Heat Removal for Polymer Electrolyte Membrane Fuel Cell |
KIM, JINSAN
(Department of Mechanical Design Engineering, Hanyang University)
JO, TAEHYUN (Department of Mechanical Design Engineering, Hanyang University) KOO, BONCHAN (Department of Mechanical Engineering, Hanyang University) LEE, DOHYUNG (Department of Mechanical Design Engineering, Hanyang University) |
1 | G. Xu, Z. G. Zhang, 2006, "Preferential CO oxidation on Ru/ catalyst : An investig ation by considering the simultaneously inv olved methanation", Journal of Power Source, 157(2006), 64-77. DOI |
2 | C. Galletti, S. Specchia, G. Saracco, V. Spec chia, 2010, "CO-selective methanation over Ru- catalysts in -rich gas for PEM FC applications", Chemical Engineering Science, 65(2010), 590-596. DOI |
3 | S. Srinivas, A. Dhingra, H. Im, E. Gulari, 2004, "A scalable silicon microreactor for preferential CO oxidation : performance comparison with a tubular packed-bed microreactor", Applied Catalysis A: General, 274(2004), 285-293. DOI |
4 | S. Mekhilef, R. Saidur, A. Safari, 2012, "Comparative study of different fuel cell technologies", Renewable and Sustainable Energy Reviews, 16(2012), 981-989. DOI |
5 | P. Zegers, 2006, "Fuel cell commercialization : The key to a hydrogen economy", Journal of Power Source, 154(2006), 497-502. DOI |
6 | S. H. Park, 2014, "A Study on the Combustion Characteristics of Steam Reformer for Fuel Cell", Master's thesis, Hanyng univ. |
7 | J. J. Baschuck, X. Li, 2001, "Carbon monoxi de poisoning of proton exchange membrane fuel cells", International Journal of Energy Research, Vol. 25, 695-713. DOI |
8 | F. Marino, C. Descrome, D. Duprez, 2004, "Noble metal catalysts for the preferential oxidation of carbon monoxide in the presence of hydrogen (PROX)", Appliced Catalysis B : Environmental, 54(2004), 59-66. DOI |
9 | Marin O' Connell, G. Kolb, K. Schelhaas, J. Schuerer, D. Tiemann, A. Ziogas, V. Hassel, 2010, "The development and evaluation of microstructured reactors for the water gasshift and preferential oxidation reactions in the 5kW range", International Journal of Hydrogen energy, 35(2010), 2317-2327. |
10 | G. Kolb, J. Schurer, D. Tiemann, M. Wichert, R. Zapf, V. Hessel, H. Lowe, 2007, "Fuel processing in integrated micro-structured heat-exchanger reactors", Journal of Power Source, 171(2007), 198-204. DOI |
11 | S. H. Choi, J. M. Bae, 2011, "Experiment of CO Cleaning Process in DME Autothermal Reformate Gas for PEMFC Application", The Korean Hydrogen and New Energy Society, Vol. 22, No. 4, pp. 474-480. |
12 | C. Yongtaek, H.G. Stenger, 2004, "Kinetics, simulation and insights for CO selective oxidation in fuel cell applications", Journal of Power Source, 129(2004), 246-254. DOI |
13 | W. L. Yoon, J. W. Park, Y. W. Rhee, M. W. Han, J. H. Jeong, J. S. Park, H. Jung, H. T. Lee, C. S. Kim, 2003, "Operating Characte ristics of Integrated NG Reformer system f or 5kW class PEM Fuel Cell, HWAHAK KO NGHAK, Vol. 41, No. 3, June, 2003, pp. 389-396. |