| 1 |
Development of a large-sized direct injection hydrogen engine for a stationary power generator
Tsujimura T, Suzuki Y
International Journal of Hydrogen Energy, 44(22), 11355, 2019 |
| 2 |
Numerical investigation of a MCFC (Molten Carbonate Fuel Cell) system hybridized with a supercritical CO2 Brayton cycle and compared with a bottoming Organic Rankine Cycle
Baronci A, Messina G, McPhail SJ, Moreno A
Energy, 93, 1063, 2015 |
| 3 |
Temperature dynamics and control of a water-cooled fuel cell stack
O'Keefe D, El-Sharkh MY, Telotte JC, Palanki S
Journal of Power Sources, 256, 470, 2014 |
| 4 |
30,000 h operation of a 70 kW stationary PEM fuel cell system using hydrogen from a chlorine factory
Verhage AJL, Coolegem JF, Mulder MJJ, Yildirim MH, de Bruijn FA
International Journal of Hydrogen Energy, 38(11), 4714, 2013 |
| 5 |
Strategies for stationary and portable fuel cell markets
Cottrell CA, Grasman SE, Thomas M, Martin KB, Sheffield JW
International Journal of Hydrogen Energy, 36(13), 7969, 2011 |
| 6 |
Experimental analysis and management issues of a hydrogen fuel cell system for stationary and mobile application
Corbo P, Migliardini F, Veneri O
Energy Conversion and Management, 48(8), 2365, 2007 |
| 7 |
Control of stationary and transportation fuel cell systems: Progress and opportunities
Varigonda S, Kamat M
Computers & Chemical Engineering, 30(10-12), 1735, 2006 |
| 8 |
Development and performance of 5kw proton exchange membrane fuel cell stationary power system
Wang C, Mao ZQ, Bao FY, Li XG, Xie XF
International Journal of Hydrogen Energy, 30(9), 1031, 2005 |
| 9 |
Amersorb: a new high-performance polymeric separator for lead-acid batteries
Toniazzo V
Journal of Power Sources, 144(2), 365, 2005 |
| 10 |
The hydrogen economy: a threat or an opportunity for lead-acid batteries?
Rand DAJ, Dell RM
Journal of Power Sources, 144(2), 568, 2005 |
