Related references
Note: Only part of the references are listed.Effects of physical structure of high heating-rate chars on combustion characteristics
Siqi Liu et al.
FUEL (2020)
Experimental study on the formation of ultrafine particulate matters (PMs) during pulverized coal (PC) char combustion in O2/N2 and O2/CO2 atmospheres
Yu Lei et al.
JOURNAL OF THE ENERGY INSTITUTE (2020)
Mechanism on the contribution of coal/char fragmentation to fly ash formation during pulverized coal combustion
Qi Gao et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2019)
Ultra-fine particulate matters (PMs) formation during air and oxy-coal combustion: Kinetics study
Yanqing Niu et al.
APPLIED ENERGY (2018)
Ash formation and deposition in coal and biomass fired combustion systems: Progress and challenges in the field of ash particle sticking and rebound behavior
Ulrich Kleinhans et al.
PROGRESS IN ENERGY AND COMBUSTION SCIENCE (2018)
High temperature gasification of high heating-rate chars using a flat-flame reactor
Tian Li et al.
APPLIED ENERGY (2018)
Modeling of ash formation and deposition processes in coal and biomass fired boilers: A comprehensive review
Cai Yongtie et al.
APPLIED ENERGY (2018)
Coal combustion emission and ash formation characteristics at high oxygen concentration in a 1 MWth pilot-scale oxy-fuel circulating fluidized bed
Shiyuan Li et al.
APPLIED ENERGY (2017)
Understanding of physicochemical properties and formation mechanisms of fine particular matter generated from Canadian coal combustion
Chong Tian et al.
FUEL (2016)
Pursuing air pollutant co-benefits of CO2 mitigation in China: A provincial leveled analysis
Huijuan Dong et al.
APPLIED ENERGY (2015)
Temperature Effect on Central-Mode Particulate Matter Formation in Combustion of Coals with Different Mineral Compositions
Ping'an Zhang et al.
ENERGY & FUELS (2015)
The role of steam in silica vaporization and ultrafine particulate matter formation during wet oxy-coal combustion
Yishu Xu et al.
APPLIED ENERGY (2014)
Effect of kaolin additive on PM2.5 reduction during pulverized coal combustion: Importance of sodium and its occurrence in coal
Junping Si et al.
APPLIED ENERGY (2014)
The Properties of Cenospheres and the Mechanism of Their Formation During High-Temperature Coal Combustion at Thermal Power Plans
Vladimir Borisovich Fenelonov et al.
KONA Powder and Particle Journal (2014)
The effect of combustion temperature on coal ash fine-fragmentation mode formation mechanisms
Gregory Fix et al.
FUEL (2013)
Effects of coal types on ash fragmentation and coalescence behaviors in pulverized coal combustion
Ryo Yoshiie et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2013)
Combustion behavior of single particles from three different coal ranks and from sugar cane bagasse in O2/N2 and O2/CO2 atmospheres
Reza Khatami et al.
COMBUSTION AND FLAME (2012)
Coal combustion-generated aerosols: Formation and properties
Minghou Xu et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2011)
A new method for identifying the modes of particulate matter from pulverized coal combustion
Dunxi Yu et al.
POWDER TECHNOLOGY (2008)
Ash formation from excluded minerals including consideration of mineral-mineral associations
Yinghui Liu et al.
ENERGY & FUELS (2007)
Char characteristics and particulate matter formation during Chinese bituminous coal combustion
Yun Yu et al.
PROCEEDINGS OF THE COMBUSTION INSTITUTE (2007)
Mineral dust aerosol size distribution change during atmospheric transport
H Maring et al.
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES (2003)
An initial study of the fine fragmentation fly ash particle mode generated during pulverized coal combustion
WS Seames
FUEL PROCESSING TECHNOLOGY (2003)
A mathematical model of ash formation during pulverized coal combustion
L Yan et al.
FUEL (2002)
Fragmentation behavior of pyrite and calcite during high-temperature processing and mathematical simulation
L Yan et al.
ENERGY & FUELS (2001)
Share Paper
