"Unburned Carbon from Fly Ash for Mercury Adsorption: I. Separation and Characterization of Unburned Carbon"
written by J. Y. Hwang, X. Sun, Z. Li,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.1 No.1, 2002
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Identification and Characterization of Ti-Spheres (Titanspheres) in Cork Powder Fly Ash
2019
[2] Separation of unburned carbon from coal fly ash: A review
2019
[3] Magnetite and Carbon Extraction from Coal Fly Ash Using Magnetic Separation and Flotation Methods
2019
[4] Review, Sampling, and Evaluation of Landfilled Fly Ash.
2019
[5] A process of carbon enrichment of bottom slag ash for value-added applications
2019
[6] Enhancing the reactivity of aluminosilicate materials toward geopolymer synthesis
Journal of Materials Science, 2018
[7] Fabrication of Multifunctional Hybrid Composites Using Fly Ash to Control Environmental Pollutants: A Review
2018
[8] Use of a lignocellulosic residue as solid fuel: The effect of ash content in the energy potential
Industrial Crops and Products, 2018
[9] Application of Fly Ash as an Adsorbent for Removal of Air and Water Pollutants
Applied Sciences, 2018
[10] Evaluation of Two-Atmosphere Thermogravimetric Analysis for Determining the Unburned Carbon Content in Fly Ash
2017
[11] Cenospheres: A review
Fuel, 2017
[12] Coal-derived unburned carbons in fly ash: A review
International Journal of Coal Geology, 2017
[13] Comparative petrophysical and geochemical characteristics of thermal and volcanic ash from southeastern India
Journal of the Geological Society of India, 2017
[14] Activated carbon monoliths from unburned carbon in bagasse ash and their environmental applications
2016
[15] Morphology and Composition of Microspheres in Fly Ash from the Luohuang Power Plant, Chongqing, Southwestern China
Minerals, 2016
[16] Removal of volatile organic compounds over bagasse ash derived activated carbons and monoliths
Journal of Environmental Chemical Engineering, 2016
[17] Recovery of Carbon from Boiler Bottom Slag using Froth Flotation
2016
[18] EXPERIMENTAL STUDY ON TRIBOELECTROSTATIC BENEFICIATION OF WET FLY ASH USING MICROWAVE HEATING
Physicochem. Probl. Miner. Process, 2016
[19] Toward an indexing approach to evaluate fly ashes for geopolymer manufacture
Cement and Concrete Research, 2016
[20] Mercury removal and synergistic capture of SO 2/NO by ammonium halides modified rice husk char
Fuel, 2016
[21] Mercury removal and synergistic capture of SO2/NO by ammonium halides modified rice husk char
Fuel, 2016
[22] Assessment method
2016
[23] Concentração e caraterização de esferas de titânio em pó de cortiça
2016
[24] Coal Fly Ash as A Dual Site Material for Cr (VI) Adsorption: Comparation Between Single Site and Dual Site Isotherm Models.
Advanced Materials Research, 2015
[25] Cinzas da Queima de Biomassa: Aplicações e Potencialidades
Revista Virtual de Química, 2015
[26] Coal fly ash as a dual site material for Cr (VI) adsorption: comparation between single site and dual site isotherm models
Advanced Materials Research, 2015
[27] The Effect of the Cross-Sectional Shape of Friction Rods on the Triboelectrostatic Beneficiation of Fly Ash
International Journal of Coal Preparation and Utilization, 2015
[28] Impact of Unburned Carbon Particles on the Electrical Conductivity of Fly Ash Slurry
Journal of Geotechnical and Geoenvironmental Engineering, 2014
[29] 新型脱汞技术下粉煤灰中的含汞量及其堆存时汞的浸出特征研究
环境污染与防治, 2014
[30] Unburned carbon in combustion residues from solid biofuels
Fuel, 2014
[31] The Character of Dual Site Adsorbent on Coal Fly Ash Toward Benzene Adsorption
European Journal of …, 2014
[32] Characterization and Risk Evaluation of Tea Industry Coal Ash for Environmental Suitability
CLEAN–Soil, Air, Water, 2014
[33] The effects of physical and chemical properties of fly ash on the manufacture of geopolymer foam concretes
2014
[34] Method for upgrading combustion ash
2014
[35] Engineering behavior and characterization of physical-chemical particulate mixtures using geophysical measurement techniques
2013
[36] Characterising long-term wet-stored fly ash following carbon and particle size separation
Fuel, 2013
[37] The Effect of Unburned Carbon on Coal Fly Ash toward its Adsorption Capacity for Methyl Violet
W Astuti, A Prasetya, ET Wahyuni, IM Bendiyasa - waset.org, 2013
[38] Particle collision during the tribo-electrostatic beneficiation of fly ash based on infrared thermography
Journal of the Southern African Institute of Mining and Metallurgy , 2013
[39] SO 2/Hg removal from flue gas by dry FGD
International Journal of Mining Science and Technology, 2012
[40] Effect of Cenosphere Concentration on the Mechanical, Thermal, Rheological and Morphological Properties of Nylon 6
Journal of Minerals and Materials Characterization and Engineering, 2012
[41] CFD approach for unburned carbon reduction in pulverized coal boilers
Energy & Fuels , 2012
[42] Computational and experimental studies of mercury adsorption on unburned carbon present in fly ash
Carbon, 2012
[43] The Quantification of the Fly Ash Adsorption Capacity for the Purpose of Characterization and Use in Concrete
2012
[44] Effectiveness of some simple techniques for fly ash beneficiation
2012
[45] Homogeneous and Heterogeneous Oxidation of Gaseous Elemental Mercury
ProQuest Dissertations Publishing, 2012
[46] SO2/Hg removal from flue gas by dry FGD
International Journal of Mining Science and Technology, 2012
[47] Homogeneous and Heterogeneous Oxidation of GaseousElemental Mercury
2012
[48] The adsorption of lead from aqueous solutions using coal fly ash: effect of crystallinity
World Acad. Sci. Eng. Technol , 2011
[49] Density functional study of elemental mercury adsorption on surfactants
Fuel, 2011
[50] Control of mercury and PCDD/Fs emissions from coal combustion processes
2011
[51] A Scanning Electron Microscopy Study on Flue Gas Conditioned Fly Ashes Collected from Thermal Power Stations
2010
[52] Corona Separation of Fly Ash
Industry Applications, IEEE Transactions on, 2010
[53] Leaching from soil stabilized with fly ash: behavior and mechanisms
2010
[54] Characterization of low density polyethylene/oil-fly ash composites and impact of surface modification of oil fly ash on composite properties
ProQuest Dissertations Publishing, 2010
[55] EVALUATION OF THE ENVIRONMENTAL PERFORMANCE OF CCPS IN ROADWAY APPLICATIONS
Thesis, 2010
[56] Impact of fly ash composition on mercury speciation in simulated flue gas
Journal of the Air & Waste Management Association , 2009
[57] Mercury chemical transformations in the gas, aqueous and heterogeneous phases: state-of-the-art science and uncertainties
Mercury fate and transport in the global atmosphere. Springer US, 2009
[58] Зола уноса-техногенное сырье
2009
[59] Mercury Speciation in Coal-Fired Power Plant Flue Gas-Experimental Studies and Model Development
University Of Pittsburgh, 2008
[60] Characterization of unburned carbon in bagasse fly ash
Fuel, 2008
[61] Bench-and Pilot-testing of Sieving Electrostatic Precipitator
2007
[62] IMPACTS OF FLY ASH COMPOSITION AND FLUE GAS COPONENTS ON MERCURY SPECIATION
2007
[63] The role of ammonia on mercury leaching from coal fly ash
Chemosphere, 2007
[64] CAPACIDAD DE RETENCION DE METALES PESADOS EN CENIZAS VOLANTES.
KP Morales Guzman, 2007
[65] PENGARUH PENAMBAHAN FLY ASH MELALUI PROSES SEPARASI IRON OXIDE DAN COAL TERHADAP KEKERASAN ALUMINIUM FLY ASH MATRIX COMPOSITE
ROTASI, 2007
[66] PENGARUH PENAMBAHAN FLY ASH MELALUI PROSES SEPARASI IRON OXIDE DAN COAL TERHADAP KEKERASAN ALUMINIUM FLY ASH MATRIX …
2007
[67] Ecological criteria, design and reaction engineering aspects of fly ash processing to fertilizers
Reviews in Chemical Engineering, 2005
[68] Carbonitridation of fly ash. I. Synthesis of Sialon-based materials
Industrial & engineering chemistry research, 2005
[69] Characterizing the metal adsorption capability of a class F coal fly ash
Environmental science & technology , 2004
[70] Adsorption of vapor phase mercury on various carbons
Journal of Minerals and Materials Characterization and Engineering, 2004
[71] Adsorption of Hg0 on the Unburned Carbon with HF Acid Leaching
Journal of Minerals and Materials Characterization and Engineering, 2004
[72] MERCURY TRANSFORMATIONS IN COAL COMBUSTION FLUE GAS
K Personnel, C Zygarlicke - Citeseer, 2004
[73] Reviews in Chemical Engineering
2002
[74] Trapping Ionic Mercury Using Different Adsorbents