| 1 |
High temperature volatile yield and nitrogen partitioning during pyrolysis of coal and biomass fuels
Riaza J, Mason P, Jones JM, Gibbins J, Chalmers H
Fuel, 248, 215, 2019 |
| 2 |
Prediction of the radiative heat transfer in small and large scale oxy-coal furnaces
Yang X, Clements A, Szuhanszki J, Huang XH, Moguel OF, Li J, Gibbins J, Liu ZH, Zheng CG, Ingham D, Ma L, Nimmo B, Pourkashanian M
Applied Energy, 211, 523, 2018 |
| 3 |
Ignition and combustion of single particles of coal and biomass
Riaza J, Gibbins J, Chalmers H
Fuel, 202, 650, 2017 |
| 4 |
Integrated oxyfuel power plant with improved CO2 separation and compression technology for EOR application
Font-Palma C, Errey O, Corden C, Chalmers H, Lucquiaud M, del Rio MS, Jackson S, Medcalf D, Livesey B, Gibbins J, Pourkashanian M
Process Safety and Environmental Protection, 103, 455, 2016 |
| 5 |
Reducing water usage with rotary regenerative gas/gas heat exchangers in natural gas-fired power plants with post-combustion carbon capture
Herraiz L, Hogg D, Cooper J, Gibbins J, Lucquiaud M
Energy, 90, 1994, 2015 |
| 6 |
Opportunities and barriers for implementing CO2 capture ready designs: A case study of stakeholder perceptions in Guangdong, China
Li J, Liang X, Cockerill T, Gibbins J, Reiner D
Energy Policy, 45, 243, 2012 |
| 7 |
On the integration of CO2 capture with coal-fired power plants: A methodology to assess and optimise solvent-based post-combustion capture systems
Lucquiaud M, Gibbins J
Chemical Engineering Research & Design, 89(9A), 1553, 2011 |
| 8 |
Authors' response to letter by Dr JC Jones regarding'A radiant heating wire mesh single-particle biomass combustion apparatus'
Flower M, Gibbins J
Fuel, 88(10), 2058, 2009 |
| 9 |
A radiant heating wire mesh single-particle biomass combustion apparatus
Flower M, Gibbins J
Fuel, 88(12), 2418, 2009 |
| 10 |
Preparing for global rollout: A'developed country first' demonstration programme for rapid CCS deployment
Gibbins J, Chalmers H
Energy Policy, 36(2), 501, 2008 |
