| 1 |
Mathematical modelling of demineralisation of high sulphur coal by bioleaching
Weerasekara NS, Frutos FJG, Cara J, Lockwood FC
Minerals Engineering, 21(3), 234, 2008 |
| 2 |
Enhancement of pulverized coal combustion by plasma technology
Gorokhovski MA, Jankoski Z, Lockwood FC, Karpenko EI, Messerle VE, Ustimenko AB
Combustion Science and Technology, 179(10), 2065, 2007 |
| 3 |
An artificial intelligence treatment of devolatilization for pulverized coal and biomass in co-fired flames
Abbas T, Awais MM, Lockwood FC
Combustion and Flame, 132(3), 305, 2003 |
| 4 |
Application of the'waste to water' concept to Sharm El Sheikh through a CFD simulation
Abdel-Rahman M, Connolly A, Costen P, Dajnak D, Lockwood FC
Desalination, 152(1-3), 125, 2003 |
| 5 |
The prediction of mercury retention in ash from pulverised combustion of coal and sewage sludge
Dajnak D, Clark KD, Lockwood FC, Reed G
Fuel, 82(15-17), 1901, 2003 |
| 6 |
A mathematical modelling technique for gaseous and solid fuel reburning in pulverised coal combustors
Dimitriou DJ, Kandamby N, Lockwood FC
Fuel, 82(15-17), 2107, 2003 |
| 7 |
Calculation of finite-rate chemistry turbulent diffusion flames based on the particle pdf approach
Emami MD, Lockwood FC
Combustion Science and Technology, 152, 39, 2000 |
| 8 |
Use of thermal energy from waste for seawater desalination
Dajnak D, Lockwood FC
Desalination, 130(2), 137, 2000 |
| 9 |
A model for the particulate matter enrichment with toxic metals in solid fuel flames
Lockwood FC, Yousif S
Fuel Processing Technology, 65-66, 439, 2000 |
| 10 |
Modelling ash deposition in pulverized coal-fired applications
Lee FCC, Lockwood FC
Progress in Energy and Combustion Science, 25(2), 117, 1999 |
