02/00411 Development review of coal ash effective utilization technology K Kozasa, RP Gupta, TF Wall, L Baxter nature 637, 641, 0 | | |
02/00497 Biomass gasification revision and technology RP Gupta, TF Wall, L Baxter Proc. Eng. Found. Conf. Miner. Matter Fuelsj 635, 643, 1997 | | 1997 |
463 The Properties and Thermal Effects of Ash Deposits in Coal-Fired Furnaces: A Review TF Wall, SP Bhattacharya, DK Zhang, RP Gupta, X He The Impact of Ash Deposition on Coal Fired Plants: Proceedings of the …, 0 | | |
A case study: ash deposits in a power station related to experimentally measured ash character C Bailey, G Bryant, T Wall Carbon Copy, 1999 | | 1999 |
A CFD-based study on the combustion characteristics of coal blends C Sheng, B Moghtaderi, R Gupta, TF Wall | | 2003 |
A char morphology system with applications to coal combustion JG Bailey, A Tate, CFK Diessel, TF Wall Fuel 69 (2), 225-239, 1990 | 278 | 1990 |
A comparative study on the design of direct contact condenser for air and oxy-fuel combustion flue gas based on Callide Oxy-fuel Project D Liu, J Jin, M Gao, Z Xiong, R Stanger, T Wall International Journal of Greenhouse Gas Control 75, 74-84, 2018 | 14 | 2018 |
A comparison of ash produced under conventional and low NO {sub x} combustion conditions CJ Zygarlicke, DP McCollor, DL Toman, TF Wall, RP Gupta, H Razaei American Society of Mechanical Engineers, New York, NY (United States), 1995 | 2 | 1995 |
A comparison of CCSEM and QEMSCAN analysis of pulverized coal Y Lui, R Gupta, TF Wall QCAT Technology Transfer Centre, 2007 | 2 | 2007 |
A computational fluid dynamics based study of the combustion characteristics of coal blends in pulverised coal-fired furnace C Sheng, B Moghtaderi, R Gupta, TF Wall Fuel 83 (11-12), 1543-1552, 2004 | 130 | 2004 |
A differential scanning calorimetric (DSC) study on the characteristics and behavior of water in low-rank coals A Tahmasebi, J Yu, H Su, Y Han, J Lucas, H Zheng, T Wall Fuel 135, 243-252, 2014 | 76 | 2014 |
A mathematical model of ash formation during combustion of pulverized coal L Yan, RP Gupta, TF Wall | 1 | 1998 |
A mathematical model of ash formation during pulverized coal combustion L Yan, RP Gupta, TF Wall Fuel 81 (3), 337-344, 2002 | 144 | 2002 |
A mechanistic approach to characterize coal heterogeneity in predicting high-temperature volatile matter yields LG Tang, RP Gupta, CD Sheng, TF Wall Energy & fuels 18 (6), 1716-1722, 2004 | 9 | 2004 |
A mechanistic study on char structure evolution during coal devolatilization—Experiments and model predictions JL Yu, V Strezov, J Lucas, GS Liu, T Wall Proceedings of the combustion institute 29 (1), 467-473, 2002 | 35 | 2002 |
A model for pressurised gasification of a single particle of coal GS Liu, AG Tate, HR Rezaei, TF Wall | | 1998 |
A novel chemical looping based air separation technology for oxy-fuel combustion of coal B Moghtaderi, T Wall Proc. NSW Low Emissions Coal Technologies Summit, June 8-9, 2010, Sidney …, 2010 | 2 | 2010 |
A preliminary model for mineral matter transformation during Pulverized coal combustion L Yan, RP Gupta, EM Kennedy, TF Wall | 1 | 1998 |
A Review of the State-of-the-art in Coal Blending for Power Generation: Final Report-Project 3.16 TF Wall, LK Elliott, A Conroy Advanced Technology Centre, The University of Newcastle, 2001 | 5 | 2001 |
A scoping study on Oxy-CFB technology as an alternative carbon capture option for Australian black and brown coals T Wall, Y Liu, S Bhattacharya ANLEC R&D, Monash University, 2012 | 18 | 2012 |