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Professor Terry Wall
Professor Terry Wall
Chemical Engineering, University of Newcastle, NSW, AUSTRALIA
Verified email at newcastle.edu.au
Title
Cited by
Cited by
Year
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
21042005
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
10082009
Combustion processes for carbon capture
TF Wall
Proceedings of the combustion institute 31 (1), 31-47, 2007
8322007
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
6842004
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
5312007
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
4892015
Characterising ash of biomass and waste
AAT Masiá, BJP Buhre, RP Gupta, TF Wall
Fuel Processing Technology 88 (11-12), 1071-1081, 2007
4872007
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
3682009
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
3602002
A char morphology system with applications to coal combustion
JG Bailey, A Tate, CFK Diessel, TF Wall
Fuel 69 (2), 225-239, 1990
2771990
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
2552011
Pyrolytic characteristics of blended coal and woody biomass
B Moghtaderi, C Meesri, TF Wall
Fuel 83 (6), 745-750, 2004
2272004
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
2032003
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
1992000
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
1942008
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
1852007
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
1762000
Ash formation mechanisms during pf combustion in reducing conditions
AR McLennan, GW Bryant, BR Stanmore, TF Wall
Energy & Fuels 14 (1), 150-159, 2000
1762000
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
1722006
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
1692014
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