Beneficiation of coal fly ashes by oxygen chemisorptionSENNECA, Osvalda; SALATINO, Piero; SORRENTI, Rocco et al.Experimental thermal and fluid science. 2012, Vol 43, pp 76-81, issn 0894-1777, 6 p.Conference Paper

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Viscosity of ash particles in combustion systems for prediction of particle stickingSENIOR, C. L; SRINIVASACHAR, S.Energy & fuels. 1995, Vol 9, Num 2, pp 277-283, issn 0887-0624Article

Predicting coal ash fusion temperature based on its chemical composition using ACO-BP neural networkLIU, Y. P; WU, M. G; QIAN, J. X et al.Thermochimica acta. 2007, Vol 454, Num 1, pp 64-68, issn 0040-6031, 5 p.Article

Suppression of phosphate release from coastal sediments using granulated coal ashYAMAMOTO, T; HARADA, K; KIM, K. H et al.Estuarine, coastal and shelf science (Print). 2013, Vol 116, pp 41-49, issn 0272-7714, 9 p.Article

Ash limitation of physical coal beneficiation for medium-high ash coal—A geochemistry perspectiveWENFENG WANG; WEIDUO HAO; SIMON XU et al.Fuel (Guildford). 2014, Vol 135, pp 83-90, issn 0016-2361, 8 p.Article

Interaction between iron-based oxygen carrier and four coal ashes during chemical looping combustionJINHUA BAO; ZHENSHAN LI; NINGSHENG CAI et al.Applied energy. 2014, Vol 115, pp 549-558, issn 0306-2619, 10 p.Article

In Situ Characterization of Ash Thermal Conductivity for Three Coal Types Formed Under Oxidizing and Reducing Conditions in a Laboratory FurnaceCUNDICK, D; MAYNES, D; MOORE, T et al.Journal of thermal science and engineering applications (Print). 2012, Vol 4, Num 4, issn 1948-5085, 041002.1-041002.11Article

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Effects of compost, coal ash, and straw amendments on restoring the quality of eroded Palouse soilCOX, Duncan; BEZDICEK, David; FAUCI, Mary et al.Biology and fertility of soils. 2001, Vol 33, Num 5, pp 365-372, issn 0178-2762Article

Subsurface Sequestration of CO₂ in the U.S: Is it Money Best Spent?PATZEK, Tad W.Natural resources research (New York, N.Y.). 2010, Vol 19, Num 1, pp 1-9, issn 1520-7439, 9 p.Article

Ecotoxicological implications of aquatic disposal of coal combustion residues in the United States: A reviewROWE, Christopher L; HOPKINS, William A; CONGDON, Justin D et al.Environmental monitoring and assessment. 2002, Vol 80, Num 3, pp 207-276, issn 0167-6369, 70 p.Article

Study of coal ash deposition in an entrained flow reactor : Assessment of traditional and alternative slagging indicesBARROSO, J; BALLESTER, J; PINA, A et al.Fuel processing technology. 2007, Vol 88, Num 9, pp 865-876, issn 0378-3820, 12 p.Article

Direct determination of parts-per-billion levels of germanium in botanical samples and coal fly ash by graphite furnace atomic absorption spectrometryDE-QIANG, Z; ZHE-MING, N; HAN-WEN, S et al.Fresenius' journal of analytical chemistry. 1997, Vol 358, Num 5, pp 641-645, issn 0937-0633Article

Sonochemical decomposition of hydrazine in water: Effects of coal ash and pH on the decomposition and adsorption behaviorNAKUI, Hiroyuki; OKITSU, Kenji; MAEDA, Yasuaki et al.Chemosphere (Oxford). 2009, Vol 76, Num 5, pp 716-720, issn 0045-6535, 5 p.Article

Effect of coal ash on hydrazine degradation under stirring and ultrasonic irradiation conditionsNAKUI, H; OKITSU, K; MAEDA, Y et al.Ultrasonics sonochemistry. 2008, Vol 15, Num 4, pp 472-477, issn 1350-4177, 6 p.Article

Characterising the sintering behaviour of pulverised fuel ash using heating stage microscopyADELL, V; CHEESEMAN, C. R; FERRARIS, M et al.Materials characterization. 2007, Vol 58, Num 10, pp 980-988, issn 1044-5803, 9 p.Article

Detecting the heavy metal tolerance level in ectomycorrhizal fungi in vitroRAY, Prasun; TIWARI, Richa; GANGI REDDY, U et al.World journal of microbiology & biotechnology. 2005, Vol 21, Num 3, pp 309-315, issn 0959-3993, 7 p.Article

Measurement and Simulation of Flow Properties of Coal Ash Slag in Coal GasificationWENJIA SONG; YIMIN SUN; YONGQIANG WU et al.AIChE journal. 2011, Vol 57, Num 3, pp 801-818, issn 0001-1541, 18 p.Article

Characteristics of solid by-products from entrained flow gasification of Australian coalsILYUSHECHKIN, Alexander Y; ROBERTS, Daniel G; HARRIS, David J et al.Fuel processing technology. 2014, Vol 118, pp 98-109, issn 0378-3820, 12 p.Article

Evaluation of shear strength and mechanical properties of granulated coal ash based on single particle strengthYOSHIMOTO, Norimasa; HYODO, Masayuki; NAKATA, Yukio et al.Soils and foundations. 2012, Vol 52, Num 2, pp 321-334, issn 0038-0806, 14 p.Article

Catalytic steam reforming of bio-oil model compounds for hydrogen production over coal ash supported Ni catalystSHURONG WANG; FAN ZHANG; QINJIE CAI et al.International journal of hydrogen energy. 2014, Vol 39, Num 5, pp 2018-2025, issn 0360-3199, 8 p.Article

THE USE OF TETRAGNATHID SPIDERS AS BIOINDICATORS OF METAL EXPOSURE AT A COAL ASH SPILL SITEOTTER, Ryan R; HAYDEN, Mary; MATHEWS, Teresa et al.Environmental toxicology and chemistry. 2013, Vol 32, Num 9, pp 2065-2068, issn 0730-7268, 4 p.Article

Trophic status and metal bioaccumulation differences in multiple fish species exposed to coal ash-associated metalsOTTER, Ryan R; BAILEY, Frank C; FORTNER, Allison M et al.Ecotoxicology and environmental safety (Print). 2012, Vol 85, pp 30-36, issn 0147-6513, 7 p.Article

Formation of formic acid, acetic acid and lactic acid from decomposition of citric acid by coal ash particles at room temperatureNAKUI, Hiroyuki; OKITSU, Kenji; MAEDA, Yasuaki et al.Journal of hazardous materials (Print). 2009, Vol 168, Num 1, pp 548-550, issn 0304-3894, 3 p.Article