Pollutant emission from a heat station supplied with agriculture biomass and wood pellet mixture

Journal title

Chemical and Process Engineering




No 2 June



agricultural residue ; wood ; combustion ; emission ; heat station

Divisions of PAS

Nauki Techniczne




Polish Academy of Sciences Committee of Chemical and Process Engineering




Artykuły / Articles


ISSN 0208-6425


Colannino J. (2006), Modeling of combustion systems. A practical approach. ; Dembiras A. (2004), Combustion characteristics of different biomass fuels, Progress Energy Combust. Sci, 30, 219, ; <i>EN 12048:1999.</i> Solid fertilizers and liming materials-Determination of moisture content-Gravimetric method by drying at (105 ±2)°C. ; Gible C. (2008), Slagging characteristics during residential combustion of biomass pellets, Energy Fuels, 22, 3536, ; González J. (2004), Combustion optimisation of biomass residue pellets for domestic heating with a mural boiler, Biomass Bioenergy, 27, 145, ; Johanson S. (2004), Emission characteristics of modern and old-type residential boilers fired with wood logs and wood pellets, Biomass Bioenergy, 38, 4183, ; Juszczak M. (2010), Pollutant concentrations from a heat station supplied with pine wood logs, Chem. Process Eng, 31, 373. ; Juszczak M. (2011), Pollutant concentrations from deciduous wood fuelled heat stations, Chem. Process Eng, 32, 41, ; Kjällstrand J. (2004), Chimney emissions from small-scale burning of pellets and fuelwood - examples referring to different combustion appliances, Biomass Bioenergy, 27, 557, ; Mediavilla I. (2009), Optimization of pelletization and combustion in a boiler of 17.5 kWth for vine shoots and industrial cork residua, Fuel Process. Technol, 90, 621, ; Mroczek K. (2011), The effect of halloysite additive on operation of boilers firing agricultural biomass, Fuel Process. Technol, 92, 845, ; Nussbaumer T. (2003), Combustion and co-combustion of biomass: fundamentals, technologies and primary measures for emission reduction, Energy Fuels, 17, 1510, ; Öhman M. (2004), Slagging tendencies of wood pellet ash during combustion in residential pellet burners, Biomass Bioenergy, 27, 585, ; Olsson M. (2004), Emission from burning of softwood pellets, Biomass Bioenergy, 27, 607, ; <i>PN-EN 303-5: 2004.</i> Heating boilers, part5. Heating boilers for solid fuels, hand and automatically stocked nominal heat output of up to 300 kW. Terminology, requirements and marking. ; Poskrobko S. (2010a), Experimental investigation of hydrogen chloride bonding with calcium hydroxide in the furnace of a stoker-fired boiler, Energy Fuels, 24, 1948, ; Poskrobko S. (2010b), Experimental investigation of hydrogen chlorine bonding with limestone and dolomite in the furnace of a stoker-fired boiler, Energy Fuels, 24, 5851, ; Poskrobko S. (2012), Hydrogen chloride bonding with calcium hydroxide in combustion and two-stage combustion of fuels from waste, Energy Fuels, 26, 842, ; Rybak W. (2006), Bio-fuels combustion and co-combustion. ; Vassilev S. (2010), An overview of the chemical composition of biomass, Fuel, 89, 913, ; Venkataraman C. (2001), Emission factors of carbon monoxide and size-resolved aerosols from biofuel combustion, Environ. Sci. Technol, 35, 2100, ; Verma V. (2011), Performance of a domestic pellet boiler as a function of operetional loads: Part-2, Biomass Bioenergy, 35, 272, ; Werther J. (2000), Combustion of agricultural residues, Progress Energy Combust. Sci, 26, 1, ; Wiinikka H. (2006), High-temperature aerosol formation in wood pellet flames: Spatially resolved measurements, Combust. Flame, 147, 278,