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Effects of fine ash particles and alkali metals on ash deposition characteristics at the initial stage of ash deposition determined in 1.5 MW_th pilot plant testsSHIMOGORI, Miki; MINE, Toshihiko; OHYATSU, Noriyuki et al.Fuel (Guildford). 2012, Vol 97, pp 233-240, issn 0016-2361, 8 p.Article

Control of ash related problems in a large scale tangentially fired boiler using CFD modellingHARI BABU VUTHALURU; VUTHALURU, Rupa.Applied energy. 2010, Vol 87, Num 4, pp 1418-1426, issn 0306-2619, 9 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

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Of volcanoes and insects: the impact of the Puyehue―Cordon Caulle ash fall on populations of invasive social wasps, Vespula sppMASCIOCCHI, M; PEREIRA, A. J; LANTSCHNER, M. V et al.Ecological research. 2013, Vol 28, Num 2, pp 199-205, issn 0912-3814, 7 p.Article

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Effects of fouling on the efficiency of heat exchangers in lignite utility boilersBERGELES, G; BOURIS, D; YIANNESKIS, M et al.Applied thermal engineering. 1997, Vol 17, Num 8-10, pp 739-749, issn 1359-4311Article

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Ash and chlorine deposition during co-combustion of lignite and a chlorine-rich Canadian peat in a fluidized bed ― Effects of blending ratio, moisture content and sulfur additionYUANYUAN SHAO; CHUNBAO XU; ZHU, Jesse et al.Fuel (Guildford). 2012, Vol 95, pp 25-34, issn 0016-2361, 10 p.Article

Improved numerical prediction of ash formation and deposition using a novel developed char fragmentation modelKREUTZKAM, Benjamin; WIELAND, Christoph; SPLIETHOFF, Hartmut et al.Fuel (Guildford). 2012, Vol 98, pp 103-110, issn 0016-2361, 8 p.Article

Modelling and measurements of the characteristics of ash deposition and distribution in a HRSG of wastewater incineration plantLIN MU; LIANG ZHAO; HONGCHAO YIN et al.Applied thermal engineering. 2012, Vol 44, pp 57-68, issn 1359-4311, 12 p.Article

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Ash deposition behavior of cynara-coal blends in a PF pilot furnaceBARTOLOME, C; GIL, A; RAMOS, I et al.Fuel processing technology. 2010, Vol 91, Num 11, pp 1576-1584, issn 0378-3820, 9 p.Article

Development of a modeling approach to predict ash formation during co-firing of coal and biomassDOSHI, V; VUTHALURU, H. B; KORBEE, R et al.Fuel processing technology. 2009, Vol 90, Num 9, pp 1148-1156, issn 0378-3820, 9 p.Article

Test results from sugar cane bagasse and high fiber cane co-fired with fossil fuelsTURN, Scott Q; JENKINS, Bryan M; JAKEWAY, Lee A et al.Biomass & bioenergy. 2006, Vol 30, Num 6, pp 565-574, issn 0961-9534, 10 p.Article

Fundamental ash deposition characteristics in pulverized coal reaction under high temperature conditionsNARUSE, Ichiro; KAMIHASHIRA, Daisuke; KHAIRIL et al.Fuel (Guildford). 2005, Vol 84, Num 4, pp 405-410, issn 0016-2361, 6 p.Article

Characterization and growth modeling of ash deposits in coal fired boilersMENDES N, Lourival J; BAZZO, Edson.Powder technology. 2012, Vol 217, pp 61-68, issn 0032-5910, 8 p.Article