1. Carrette, L., Friedrich, K.A. and Stimming, U., “Fuel cells–
fundamentals and applications”. Fuel Cells, Vol. 1, No. 1, (2001),
5-39.
2. Afshari, E. and Mollayi Barzi, A., “Dynamic response analysis
of the planar and tubular solid oxide fuel cells to the inlet air mass
flow rate variation”. International Journal of Engineering,
Transactions B: Applications, Vol. 28, No. 5, (2015), 794-801.
3. Shokati, N., Ranjbar, F. and Mohammadkhani, F., “Comparison
of single-stage and two-stage tubular sofc-gt hybrid cycles:
energy and exergy viewpoints”. International Journal of
Engineering, Transactions A: Basics, Vol. 28, No. 4, (2015),
618-626.
4. Bove, R. and Ubertini, S. eds., “Modeling solid oxide fuel cells:
methods, procedures and techniques”. Springer Science &
Business Media, (2008).
5. Wereszczak, A., Lara-Curzio, E. and Bansal, N.P.
eds., “Advances in solid oxide fuel cells II (Vol. 308)”. John
Wiley & Sons, (2009).
6. Huang, K. and Goodenough, J.B., “Solid oxide fuel cell
technology: principles, performance and operations”. Elsevier,
(2009).
7. Ebrahimi, M. and Moradpoor, I., “Combined solid oxide fuel cell,
micro-gas turbine and organic Rankine cycle for power
generation (SOFC–MGT–ORC)”. Energy Conversion and
Management, Vol. 116, (2016), 120-133.
8. Bang-Møller, C., Rokni, M. and Elmegaard, B., “Exergy analysis
and optimization of a biomass gasification, solid oxide fuel cell
and micro gas turbine hybrid system”. Energy, Vol. 36, No. 8,
(2011), 4740-4752.
9. Ozcan, H. and Dincer, I., “Performance evaluation of an SOFC
based trigeneration system using various gaseous fuels from
biomass gasification”. International Journal of Hydrogen
Energy, Vol. 40, No. 24, (2015), 7798-7807.
10. Subarmono, S., Saptoadi, H., Musabbikhah, M. and Arif
Wibisono, M., “Modelling and optimisation of coconut shell
drying and carbonisation using multi-response taguchi method
with multi-response signal-to-noise procedure”. International
Journal of Engineering, Transactions C: Aspects, Vol. 31, No.
3, (2018), 464-472.
11. Khalkhali, A. and Daghighi, S., “Optimum design of a coir fiber
biocomposite tube reinforced with nano silica and nano clay
powder”. International Journal of Engineering, Transactions
C: Aspects, Vol. 30, No. 12, (2017), 1894-1902.
12. Janani, M., Prakash, D., Harini, E. and Harish, T., “Enhancement
of heat transfer over a double forward facing step with square
obstacle through taguchi’s optimization technique”.
International Journal of Engineering, Transactions B:
Applications, Vol. 30, No. 8, (2017), 1253-1259.
13. Bharat, K.S., Mukund, S.A. and Ramrao, T.B., “Analysis and
optimization of diesel engine working on biodiesel using taguchi
method”. International Journal of Current Trends in Science
and Technology, Vol. 8, No. 1, (2018), 72-75.
14. Chen, W.H., Huang, S.R. and Lin, Y.L., “Performance analysis
and optimum operation of a thermoelectric generator by Taguchi
method”. Applied Energy, Vol. 158, (2015), 44-54.
15. Balki, M.K., Sayin, C. and Sarıkaya, M., “Optimization of the
operating parameters based on Taguchi method in an SI engine used pure gasoline, ethanol and methanol”. Fuel, Vol. 180,
(2016), 630-637.
16. Pandey, N., Murugesan, K. and Thomas, H.R., “Optimization of
ground heat exchangers for space heating and cooling
applications using Taguchi method and utility concept”. Applied
Energy, Vol. 190, (2017), 421-438.
17. Chan, S.H., Ho, H.K. and Tian, Y., “Modelling of simple hybrid
solid oxide fuel cell and gas turbine power plant”. Journal of
Power Sources, Vol. 109, No. 1, (2002), 111-120.
18. Ranjbar, F., Chitsaz, A., Mahmoudi, S.M.S., Khalilarya, S. and
Rosen, M.A., “Energy and exergy assessments of a novel
trigeneration system based on a solid oxide fuel cell”. Energy
Conversion and Management, Vol. 87, (2014), 318-327.
19. Kim, J.W., Virkar, A.V., Fung, K.Z., Mehta, K. and Singhal, S.C.,
“Polarization effects in intermediate temperature, anode‐
supported solid oxide fuel cells”. Journal of the Electrochemical
Society, Vol. 146, No. 1, (1999), 69-78.
20. Colpan, C.O., Hamdullahpur, F., Dincer, I. and Yoo, Y., “Effect
of gasification agent on the performance of solid oxide fuel cell
and biomass gasification systems”. International Journal of
Hydrogen Energy, Vol. 35, No. 10, (2010), 5001-5009.
21. Campanari, S. and Iora, P., “Definition and sensitivity analysis of
a finite volume SOFC model for a tubular cell
geometry”. Journal of Power Sources, Vol. 132, No. 1, (2004),
113-126.
22. Chan, S.H., Low, C.F. and Ding, O.L., “Energy and exergy
analysis of simple solid-oxide fuel-cell power systems”. Journal
of Power Sources, Vol. 103, No. 2, (2002), 188-200.
23. Akkaya, A.V., “Electrochemical model for performance analysis
of a tubular SOFC”. International Journal of Energy
Research, Vol. 31, No. 1, (2007), 79-98.
24. Chan, S.H., Khor, K.A. and Xia, Z.T., “A complete polarization
model of a solid oxide fuel cell and its sensitivity to the change of
cell component thickness”. Journal of Power Sources, Vol. 93,
No. 1, (2001), 130-140.
25. Kumar, R.S., Sureshkumar, K. and Velraj, R., “Optimization of
biodiesel production from Manilkara zapota (L.) seed oil using
Taguchi method”. Fuel, Vol. 140, (2015), 90-96.
26. Kıvak, T., “Optimization of surface roughness and flank wear
using the Taguchi method in milling of Hadfield steel with PVD
and CVD coated inserts”. Measurement, Vol. 50, (2014), 19-28.
27. Selvaraj, D.P., Chandramohan, P. and Mohanraj, M.,
“Optimization of surface roughness, cutting force and tool wear
of nitrogen alloyed duplex stainless steel in a dry turning process
using Taguchi method”. Measurement, Vol. 49, (2014), 205215.
28. Tao, G., Armstrong, T. and Virkar, A., “Intermediate temperature
solid oxide fuel cell (IT-SOFC) research and development
activities at MSRI”. In Nineteenth annual ACERC&ICES
Conference, Utah, (2005).
29. Carrette, L., Friedrich, K.A. and Stimming, U., “Fuel cells–
fundamentals and applications”. Fuel Cells, Vol. 1, No. 1, (2001),
5-39.
30. Afshari, E. and Mollayi Barzi, A., “Dynamic response analysis
of the planar and tubular solid oxide fuel cells to the inlet air mass
flow rate variation”. International Journal of Engineering,
Transactions B: Applications, Vol. 28, No. 5, (2015), 794-801.
31. Shokati, N., Ranjbar, F. and Mohammadkhani, F., “Comparison
of single-stage and two-stage tubular sofc-gt hybrid cycles:
energy and exergy viewpoints”. International Journal of
Engineering, Transactions A: Basics, Vol. 28, No. 4, (2015),
618-626.
32. Bove, R. and Ubertini, S. eds., “Modeling solid oxide fuel cells:
methods, procedures and techniques”. Springer Science &
Business Media, (2008).