1 |
A new rate based absorber and desorber modelling tool Saimpert M, Puxty G, Qureshi S, Wardhaugh L, Cousins A Chemical Engineering Science, 96, 10, 2013 |
2 |
Preliminary analysis of process flow sheet modifications for energy efficient CO2 capture from flue gases using chemical absorption Cousins A, Wardhaugh LT, Feron PHM Chemical Engineering Research & Design, 89(8A), 1237, 2011 |
3 |
Kinetics of the water-gas shift reaction over a La0.7Ce0.2FeO3 perovskite-like catalyst using simulated coal-derived syngas at high temperature Hla SS, Sun Y, Duffy GJ, Morpeth LD, Ilyushechkin A, Cousins A, Roberts DG, Edwards JH International Journal of Hydrogen Energy, 36(1), 518, 2011 |
4 |
Investigation into the performance of a Co-Mo based sour shift catalyst using simulated coal-derived syngases Hla SS, Duffy GJ, Morpeth LD, Cousins A, Roberts DG, Edwards JH International Journal of Hydrogen Energy, 36(11), 6638, 2011 |
5 |
Entrained-flow gasifier fuel blending studies at pilot scale Cousins A, McCalden DJ, Hughes RW, Lu DY, Anthony EJ Canadian Journal of Chemical Engineering, 86(3), 335, 2008 |
6 |
Development of a bench-scale high-pressure fluidized bed reactor and its sequential modification for studying diverse aspects of pyrolysis and gasification of coal and biomass Cousins A, Zhuo Y, George A, Paterson N, Dugwell DR, Kandiyoti R Energy & Fuels, 22(4), 2491, 2008 |
7 |
An investigation of the reactivity of chars formed in fluidized-bed gasifiers: Equipment development and initial tests Cousins A, Paterson N, Dugwell DR, Kandiyoti R Energy & Fuels, 20(2), 699, 2006 |
8 |
An investigation of the reactivity of chars formed in fluidized bed gasifiers: The effect of reaction conditions and particle size on coal char reactivity Cousins A, Paterson N, Dugwell DR, Kandiyoti R Energy & Fuels, 20(6), 2489, 2006 |