Design And Analysis Of Diesel Fueled Solid Oxide Fuel Cell System Onboard Surface Ship

Year 2010, Volume: 6 Issue: 1, 59 - 78, 01.04.2010

M. Turhan Çoban Cüneyt Ezgi

Abstract

Keywords

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SU ÜSTÜ GEMİDE DİZEL YAKITLI KATI OKSİTLİ YAKIT PİLİ SİSTEMİ TASARIMI VE ANALİZİ

Abstract

Katı oksitli yakıt pilleri (SOFCs), yüksek sıcaklıklarda çalışan seramik tipte
yakıt pilleridir. Yakıt pilleri, su üstü gemilerde elektrik gücü üretimi için
büyük bir potansiyel sağlar. Günümüzde su üstü gemileri, F-76 dizel
yakıtını kullanmaktadır. Bu çalışmada, bir su üstü gemide 120 kW güçte bir
yardımcı makina olarak dizel yakıtlı katı oksitli yakıt pili sistemi
tasarlanmış ve termodinamik analizi yapılmıştır. Analizde gerçek gazlara ait
termodinamik özelikler, Java programı kullanılarak hesaplanmıştır. Yakıt
pili sistemi, dizel-elektrik jeneratör grubu ile karşılaştırılmıştır.

Keywords

Katı oksitli yakıt pili, Dizel yakıt, Su üstü gemi, Termodinamik analiz, Dizel elektrik jeneratör grubu

References

• Marte Reenaas, Solıde oxıde fuel cell combıned wıth gas turbıne versus dıesel engıne as auxılıary power producıng unıt onboard a passenger ferry, Norwegian university of science and technology, February 2005
• Endresen.Q.,Sorgard.E.,SundetJ. K., Dalsoren S.B.,Berglen T.F.,Gravir G. And Isaksen I.S.A., Environmental impact of international sea transportation, accepted by the Journal of Geophysical Research, 2003
• Fuel Cell Handbook (Seventh Edition), U.S. Department of Energy Office of Fosil Energy, National Energy Technology Laboratory, November 2004
• Osamu Yamamoto, Solid oxide fuel cells: fundamental aspects and prospects, Electrochimica Acta 45 (2000) 2423–2435
• Christoph Stiller, Design, Operation and Control Modeling of SOFC/GT Hybrid Systems, Doctoral Theses at NTNU, 2006:28
• S. Singhal, K. Kendall (Eds.), High Temperature Solide Oxide Fuel Cells: Fundamentals, Design and Applications, Elsevier, 2003.
• Inyong Kang, Joongmyeon Bae, Autothermal reforming study of diesel for fuel cell application, Journal of Power Sources 159 (2006) 1283–1290
• U.S. Department of Defense, 2006, MIL-DTL-16884L, Detail Specification Fuel Naval Distilate, 23 October 2006
• NATO Standardization Agreement (STANAG) Stanag No:1385 (Edition 3), Guide Specifications (Minimum Quality Standards) For Naval Distillate Fuels, 20 April 2006
• Steinfeld G, Sanderson R, Ghezel-Ayagh H, Abens S, Cervi MC. Distillate fuel processing for marine fuel cell applications. AICHE spring 2000 meeting, 5–9 March 2000, Atlanta, GA, USA.
• S. Katikaneni, C. Yuh, S. Abens, M. Farooque, 2002, The direct carbonate fuel cell technology: advances in multi-fuel processing and internal reforming, Catalysis Today 77, 99–106
• Amphlett, J. C., Mann, R. F., Peppley, B.A., Roberge, P.R., Rodrigues, A., Salvador, J. P. (1998). “Simulation of a 250 kW Diesel Fuel Processor/ PEM Fuel Cell System.” International Journal of Hydrogen Energy. 71. 179-184
• Çoban, M., TURHAN, Java 2 Programming Manual (In Turkish), ALFA Yayınevi, Ticarethane Sok no 41/1 34410 Cagaloglu, Istanbul, ISBN 975-316-631-1
• S.Ahmed, M.Krumpelt, Hydrogen from hydrocarbon fuels for fuel cells, International Journal of Hydrogen Energy 26 (2001) 291-301
• Sorell, G., Corrosion-and heat-resistant nickel alloys, Guidelines for selection and application, Nickel Development Institute Technical Series No:10086, 1998
• Sunden, Bengt, High Temperature Heat Exchangers (HTHE), Proceedings of Fifth International Conference, Science, Engineering and Technology, September, 2005
• International Maritime Organization, 1998, Annex VI of MARPOL 73/78 “Regulations for the Prevention of Air Pollution from Ships”, International Maritime Organization, London, UK
• Corbett,James J. and Farrell,Alex, Mitigating Air Pollution Impacts of Passenger Ferries, Transportation Research Part D 7 (2002) 197-211
• S. Krummricha, B. Tuinstra, G. Kraaij, J. Roes, H. Olgun, Diesel fuel processing for fuel cells—DESIRE, Journal of Power Sources 160 (2006) 500–504