The effect of air staged, co-combustion of pulverised coal and biomass blends on NOx emissions and combustion efficiency

[1]  Nina M. Skorupska,et al.  Coal specifications : impact on power station performance , 1993 .

[2]  Takayuki Takarada,et al.  Relation between functional forms of coal nitrogen and NOx emissions from pulverized coal combustion , 1995 .

[3]  Optimization of combustion by fuel testing in a NOx reduction test facility , 1997 .

[4]  B. Jenkins,et al.  Combustion properties of biomass , 1998 .

[5]  Klaus R. G. Hein,et al.  Effect of co-combustion of biomass on emissions in pulverized fuel furnaces , 1998 .

[6]  T. A. Gemtos,et al.  Harvesting of cotton residue for energy production , 1999 .

[7]  D. Tillman Biomass cofiring: the technology, the experience, the combustion consequences , 2000 .

[8]  J. Werther,et al.  Combustion of agricultural residues , 2000 .

[9]  János M. Beér,et al.  Combustion technology developments in power generation in response to environmental challenges , 2000 .

[10]  Margaret S. Wooldridge,et al.  Co-firing of coal and biomass fuel blends , 2001 .

[11]  Thomas Nussbaumer,et al.  Fuel Staging for NOx Reduction in Biomass Combustion: Experiments and Modeling , 2001 .

[12]  R. Mitchell,et al.  Characterization of coal char and biomass char reactivities to oxygen , 2002 .

[13]  T. Nussbaumer Combustion and Co-combustion of Biomass: Fundamentals, Technologies, and Primary Measures for Emission Reduction† , 2003 .

[14]  V. Semião,et al.  CO-COMBUSTION OF PULVERIZED COAL, PINE SHELLS, AND TEXTILE WASTES IN A PROPANE-FIRED FURNACE: MEASUREMENTS AND PREDICTIONS , 2004 .

[15]  Arif Hepbasli,et al.  Cotton Stalk as a Potential Energy Source , 2004 .

[16]  Marek Pronobis,et al.  Evaluation of the influence of biomass co-combustion on boiler furnace slagging by means of fusibility correlations , 2005 .

[17]  Stuart A. Scott,et al.  The kinetics of combustion of chars derived from sewage sludge , 2005 .

[18]  L. Baxter Biomass-coal co-combustion: opportunity for affordable renewable energy , 2005 .

[19]  Panagiotis Grammelis,et al.  Effects of biomass co-firing with coal on ash properties. Part I: Characterisation and PSD , 2006 .

[20]  Asri Gani,et al.  Effect of cellulose and lignin content on pyrolysis and combustion characteristics for several types of biomass. , 2007 .

[21]  RajenderKumar Gupta,et al.  Characterising ash of biomass and waste , 2007 .

[22]  Nikolaos Koukouzas,et al.  Coal and sustainable energy supply challenges and barriers , 2008 .

[23]  J. Koppejan,et al.  The Handbook of Biomass Combustion and Co-firing , 2008 .

[24]  Shien Hui,et al.  NOx and SOx emissions of a high sulfur self-retention coal during air-staged combustion , 2008 .

[25]  Colomba Di Blasi,et al.  Combustion and gasification rates of lignocellulosic chars , 2009 .

[26]  H. Tan,et al.  Optimization of air staging in a 1 MW tangentially fired pulverized coal furnace , 2009 .

[27]  B. M. Gibbs,et al.  Thermal analysis and devolatilization kinetics of cotton stalk, sugar cane bagasse and shea meal under nitrogen and air atmospheres. , 2009, Bioresource technology.

[28]  Mário Costa,et al.  Impact of the air staging on the performance of a pulverized coal fired furnace , 2009 .

[29]  Yong Yan,et al.  Characterisation of biomass and coal co-firing on a 3 MWth Combustion Test Facility using flame imaging and gas/ash sampling techniques , 2009 .

[30]  Linghong Zhang,et al.  Overview of recent advances in thermo-chemical conversion of biomass. , 2010 .

[31]  Char oxidation study of sugar cane bagasse, cotton stalk and Pakistani coal under 1% and 3% oxygen concentrations. , 2010 .

[32]  Co-combustion of Agricultural Residues with Coal: Turning Waste into Energy , 2010 .

[33]  B. M. Gibbs,et al.  Shea meal and cotton stalk as potential fuels for co-combustion with coal. , 2010, Bioresource technology.