| 1 |
Computational fluid dynamics-based steam cracking furnace optimization using feedstock flow distribution
Zhang Y, Reyniers PA, Schietekat CM, Van Geem KM, Marin GB, Du WL, Qian F
AIChE Journal, 63(7), 3199, 2017 |
| 2 |
Preferred test conditions for measuring flow rate distribution between cells in a polymer electrolyte fuel cell stack
Sekine F, Eguchi M, Kobayashi Y, Tsutsumi Y
Journal of Power Sources, 196(20), 8173, 2011 |
| 3 |
Gas flow rate distributions in parallel minichannels for polymer electrolyte membrane fuel cells: Experiments and theoretical analysis
Zhang LF, Bi HTT, Wilkinson DP, Stumper J, Wang HJ
Journal of Power Sources, 195(10), 3231, 2010 |
| 4 |
Measuring method for flow rate distribution between cells in a polymer electrolyte fuel cell stack
Sekine F, Eguchi M, Kobayashi Y, Tsutsumi Y
Journal of Power Sources, 195(18), 5971, 2010 |
| 5 |
Fluid transfer between tubes in interacting capillary bundle models
Wang JX, Dullien FAL, Dong MZ
Transport in Porous Media, 71(1), 115, 2008 |
| 6 |
Effect of influent flow rate distribution on the performance of step-feed biological nitrogen removal process
Zhu GB, Peng YZ, Wang SY, Wu SY, Ma B
Chemical Engineering Journal, 131(1-3), 319, 2007 |
| 7 |
Evaluation of the optimal separator shape with reaction and flow analysis of polymer electrolyte fuel cell
Inoue G, Matsukuma Y, Minemoto M
Journal of Power Sources, 154(1), 18, 2006 |
| 8 |
Reaction and flow analysis for polymer electrolyte fuel cell
Inoue G, Shimomura Y, Matsukuma Y, Minemoto M
KAGAKU KOGAKU RONBUNSHU, 29(2), 197, 2003 |
| 9 |
Design of uniform flow in equipments by lattice gas automata method and an evaluation of its adaptability to parallel processing
Hioka E, Matsukuma Y, Inoue G, Minemoto M
KAGAKU KOGAKU RONBUNSHU, 29(3), 421, 2003 |
