Analysis Proton Conducting Electrolyte IT-SOFC Hybrid System Exhaust Gas With External Reforming of Biofuel

Authors

  • Nizar Amir National Central Univeristy Brawijaya University
  • I.N.G. Wardana Mechanical Engineering Department, Faculty of Engineering, University of Brawijaya, Indonesia

DOI:

https://doi.org/10.21776/ub.jpacr.2013.002.02.134

Keywords:

Proton SOFC, Hybrid system, External reforming, Greenhouse Gases

Abstract

In this analysis, a hybrid system containing proton SOFC (P-SOFC) combine with micro gas turbine (MGT) with biofuel external reforming is investigation to decrease the greenhouse gases problem facing in electrical power plant. The hybrid system consist of a proton solid oxide fuel cell stack, a micro gas turbine, a combustor, compressors, heat exchangers and external reformer. The main operating parameter such as, fuel utilization and steam - carbon ratio is determined in this analysis.

Downloads

Download data is not yet available.

References

K. Faungnawakij, R. Kikuchi, K. Eguchi, J. Power Sources, 2006, (161), 87-94 [2] Y. Lwin, W. Daud, AB. Mohamad, Z. Yaakob, Int J Hydrogen Energy, 2000, (25), 47-53 [3] D. J. Brett, A. Atkinson et al, Chem. Soc Reviews, 2008, (37), 1568-1578 [4] A. Arpornwichanop, Y. Patcharavorachot, et al, Chem. Eng Sci, 2010, (65), 581-589 [5] A.K. Demin, 2001, Thermodynamic of the sofc based on the proton conductive electrolyte [6] F Joensen, J. R. Rostrup-Nielsen, J. Power Sources, 2001, (105), 195-201 [7] P. Tsiakaras, A. Demin, J. Power Sources, 2001, (102), 210-217 [8] D. Cocco, V. Tola, Energy, 2009, (34), 2124-2130

Downloads

Published

2013-05-30

Issue

Section

Articles

How to Cite

Analysis Proton Conducting Electrolyte IT-SOFC Hybrid System Exhaust Gas With External Reforming of Biofuel. (2013). The Journal of Pure and Applied Chemistry Research, 2(2), 66-71. https://doi.org/10.21776/ub.jpacr.2013.002.02.134