Professor Terry Wall
Professor Terry Wall
Chemical Engineering, University of Newcastle, NSW, AUSTRALIA
Verified email at
Cited by
Cited by
Oxy-fuel combustion technology for coal-fired power generation
BJP Buhre, LK Elliott, CD Sheng, RP Gupta, TF Wall
Progress in energy and combustion science 31 (4), 283-307, 2005
An overview on oxyfuel coal combustion—State of the art research and technology development
T Wall, Y Liu, C Spero, L Elliott, S Khare, R Rathnam, F Zeenathal, ...
Chemical engineering research and design 87 (8), 1003-1016, 2009
Combustion processes for carbon capture
TF Wall
Proceedings of the combustion institute 31 (1), 31-47, 2007
Influence of pyrolysis conditions on the structure and gasification reactivity of biomass chars
E Cetin, B Moghtaderi, R Gupta, TF Wall
Fuel 83 (16), 2139-2150, 2004
Formation of the structure of chars during devolatilization of pulverized coal and its thermoproperties: A review
J Yu, JA Lucas, TF Wall
Progress in energy and combustion science 33 (2), 135-170, 2007
Oxyfuel combustion for CO2 capture in power plants
R Stanger, T Wall, R Spörl, M Paneru, S Grathwohl, M Weidmann, ...
International journal of greenhouse gas control 40, 55-125, 2015
Characterising ash of biomass and waste
AAT Masiá, BJP Buhre, RP Gupta, TF Wall
Fuel Processing Technology 88 (11-12), 1071-1081, 2007
Differences in reactivity of pulverised coal in air (O2/N2) and oxy-fuel (O2/CO2) conditions
RK Rathnam, LK Elliott, TF Wall, Y Liu, B Moghtaderi
Fuel processing technology 90 (6), 797-802, 2009
The effects of pressure on coal reactions during pulverised coal combustion and gasification
TF Wall, G Liu, H Wu, DG Roberts, KE Benfell, S Gupta, JA Lucas, ...
Progress in energy and combustion science 28 (5), 405-433, 2002
A char morphology system with applications to coal combustion
JG Bailey, A Tate, CFK Diessel, TF Wall
Fuel 69 (2), 225-239, 1990
Sulphur impacts during pulverised coal combustion in oxy-fuel technology for carbon capture and storage
R Stanger, T Wall
Progress in Energy and Combustion Science 37 (1), 69-88, 2011
Pyrolytic characteristics of blended coal and woody biomass
B Moghtaderi, C Meesri, TF Wall
Fuel 83 (6), 745-750, 2004
An empirical method for the prediction of coal ash slag viscosity
GJ Browning, GW Bryant, HJ Hurst, JA Lucas, TF Wall
Energy & Fuels 17 (3), 731-737, 2003
The porous structure of bituminous coal chars and its influence on combustion and gasification under chemically controlled conditions
G Liu, P Benyon, KE Benfell, GW Bryant, AG Tate, RK Boyd, DJ Harris, ...
Fuel 79 (6), 617-626, 2000
Factors influencing the ignition of flames from air-fired swirl pf burners retrofitted to oxy-fuel
SP Khare, TF Wall, AZ Farida, Y Liu, B Moghtaderi, RP Gupta
Fuel 87 (7), 1042-1049, 2008
Assessing slagging and fouling during biomass combustion: A thermodynamic approach allowing for alkali/ash reactions
D Nutalapati, R Gupta, B Moghtaderi, TF Wall
Fuel Processing Technology 88 (11-12), 1044-1052, 2007
Thermal conductivity of coal ash and slags and models used
HR Rezaei, RP Gupta, GW Bryant, JT Hart, GS Liu, CW Bailey, TF Wall, ...
Fuel 79 (13), 1697-1710, 2000
Ash formation mechanisms during pf combustion in reducing conditions
AR McLennan, GW Bryant, BR Stanmore, TF Wall
Energy & Fuels 14 (1), 150-159, 2000
Fine ash formation during combustion of pulverised coal–coal property impacts
BJP Buhre, JT Hinkley, RP Gupta, PF Nelson, TF Wall
Fuel 85 (2), 185-193, 2006
Characteristics of chars from low-temperature pyrolysis of lignite
F Meng, J Yu, A Tahmasebi, Y Han, H Zhao, J Lucas, T Wall
Energy & Fuels 28 (1), 275-284, 2014
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