Bai-qian Dai
Title
Cited by
Cited by
Year
Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverised coal-fired boiler. Part 1. Changes on the properties of ash…
BQ Dai, X Wu, A De Girolamo, L Zhang
Fuel 139, 720-732, 2015
772015
Ash deposition and slagging behavior of Chinese Xinjiang high-alkali coal in 3 MWth pilot-scale combustion test
X Wu, X Zhang, K Yan, N Chen, J Zhang, X Xu, B Dai, J Zhang, L Zhang
Fuel 181, 1191-1202, 2016
582016
Characteristics of ash deposits in a pulverized lignite coal-fired boiler and the mass flow of major ash-forming inorganic elements
BQ Dai, F Low, A De Girolamo, X Wu, L Zhang
Energy & fuels 27 (10), 6198-6211, 2013
492013
Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverised coal-fired boiler: Part 2. Speciation of iron in ash deposits…
BQ Dai, X Wu, A De Girolamo, J Cashion, L Zhang
Fuel 139, 733-745, 2015
302015
Pilot-scale experimental and CFD modeling investigations of oxy-fuel combustion of Victorian brown coal
J Zhang, B Dai, Y Meng, X Wu, J Zhang, X Zhang, Y Ninomiya, Z Zhang, ...
Fuel 144, 111-120, 2015
272015
Integration of pyrolysis and entrained-bed gasification for the production of chemicals from victorian brown coal—process simulation and exergy analysis
B Dai, L Zhang, J Cui, A Hoadley, L Zhang
Fuel Processing Technology 155, 21-31, 2017
212017
Characteristics of high temperature C-CO2 gasification reactivity of Victorian brown coal char and its blends with high ash fusion temperature bituminous coal
B Dai, A Hoadley, L Zhang
Fuel 202, 352-365, 2017
192017
Ash deposition behaviours upon the combustion of low-rank coal blends in a 3 MWth pilot-scale pulverised coal-fired furnace
X Wu, X Zhang, B Dai, X Xu, J Zhang, L Zhang
Fuel Processing Technology 152, 176-182, 2016
152016
Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverised coal-fired boiler: Part 3–Partitioning of trace elements
F Low, A De Girolamo, X Wu, B Dai, L Zhang
Fuel 139, 746-756, 2015
152015
Characteristics of high temperature co-gasification and ash slagging for Victorian brown coal char and bituminous coal blends
B Dai, A Hoadley, L Zhang
Fuel 215, 799-812, 2018
122018
Xinjiang lignite ash slagging and flowability under the weak reducing environment at 1300 C–A new method to quantify slag flow velocity and its correlation with slag properties
X Wu, H Ji, B Dai, L Zhang
Fuel processing technology 171, 173-182, 2018
102018
Xinjiang lignite ash slagging and flow under the weak reducing environment at 1300 C–Release of sodium out of slag and its modelling from the mass transfer perspective
H Ji, X Wu, B Dai, L Zhang
Fuel Processing Technology 170, 32-43, 2018
102018
Discussion on Coal Conservation and CO_2/SO_2 Emission Reduction Potential of Thermal Power Plants in China [J]
B DAI, Z ZHANG, J WANG, X HE, G CHEN
Energy Conservation Technology 2, 2008
102008
Transition behavior of main elements in fly ash during high alkali coal combustion
BQ Dai, XJ Wu, ZX Zhang
J. Chin. Soc. Power Eng. 34 (6), 438-442, 2014
82014
Emission of organically bound elements during the pyrolysis and char oxidation of lignites in air and oxyfuel combustion mode
F Low, A De Girolamo, BQ Dai, L Zhang
Energy & fuels 28 (6), 4167-4176, 2014
62014
XANES investigation on sulfur evolution during Victorian brown coal char gasification in oxy-fuel combustion mode
J Chen, B Dai, F Low, L Zhang
Energy & fuels 26 (8), 4775-4782, 2012
62012
Experimental study and quantum chemistry calculation on coal ash fusion behavior and related mineral evolution mechanism
B Dai, X Wu, Y Chen, Z Zhang
J Chin Soc Power Eng (China) 34, 70-77, 2014
52014
Influence of biomass blends on the particle temperature and burnout characteristics during oxy-fuel co-combustion of coal
M Issac, A De Girolamo, B Dai, T Hosseini, L Zhang
Journal of the Energy Institute 93 (1), 1-14, 2020
32020
Xinjiang lignite ash slagging and flow under the weak reducing environment at high temperatures–Slag viscosity and its variation with ash type and addition of clay
B Dai, X Wu, J Zhao, L Zhang
Fuel 245, 438-446, 2019
32019
Establishing a novel and yet simple methodology based on the use of modified inclined plane (M-IP) for high-temperature slag viscosity measurement
B Dai, X Wu, L Zhang
Fuel 233, 299-308, 2018
32018
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