Standard
The combustion of coal and biomass in a fixed bed furnace. / Jones, J. M.; Pourkashanian, M.; Ross, A. et al.
Industrial Furnaces and Boilers: proceedings of the 5th European Conference, 11-14 April 2000, Espinho-Porto, Portugal. ed. / Albino Reis. Vol. 2 Rio Tinto: INFORMACAO UTILIZACAO BIOMASSAINFUB, 2000. p. 45-54.
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review
Harvard
Jones, JM, Pourkashanian, M, Ross, A
, Danos, L, Bartle, KD, Williams, A, Kubica, K, Andersson, J, Kerst, M & Danihelka, P 2000,
The combustion of coal and biomass in a fixed bed furnace. in A Reis (ed.),
Industrial Furnaces and Boilers: proceedings of the 5th European Conference, 11-14 April 2000, Espinho-Porto, Portugal. vol. 2, INFORMACAO UTILIZACAO BIOMASSAINFUB, Rio Tinto, pp. 45-54, 5th European Conference on Industrial Furnaces and Boilers, ESPINHO PORTO, Portugal,
11/04/00.
APA
Jones, J. M., Pourkashanian, M., Ross, A.
, Danos, L., Bartle, K. D., Williams, A., Kubica, K., Andersson, J., Kerst, M., & Danihelka, P. (2000).
The combustion of coal and biomass in a fixed bed furnace. In A. Reis (Ed.),
Industrial Furnaces and Boilers: proceedings of the 5th European Conference, 11-14 April 2000, Espinho-Porto, Portugal (Vol. 2, pp. 45-54). INFORMACAO UTILIZACAO BIOMASSAINFUB.
Vancouver
Jones JM, Pourkashanian M, Ross A
, Danos L, Bartle KD, Williams A et al.
The combustion of coal and biomass in a fixed bed furnace. In Reis A, editor, Industrial Furnaces and Boilers: proceedings of the 5th European Conference, 11-14 April 2000, Espinho-Porto, Portugal. Vol. 2. Rio Tinto: INFORMACAO UTILIZACAO BIOMASSAINFUB. 2000. p. 45-54
Author
Jones, J. M. ; Pourkashanian, M. ; Ross, A. et al. /
The combustion of coal and biomass in a fixed bed furnace. Industrial Furnaces and Boilers: proceedings of the 5th European Conference, 11-14 April 2000, Espinho-Porto, Portugal. editor / Albino Reis. Vol. 2 Rio Tinto : INFORMACAO UTILIZACAO BIOMASSAINFUB, 2000. pp. 45-54
Bibtex
@inproceedings{ce7a0ab852574376894ebf8c40885a52,
title = "The combustion of coal and biomass in a fixed bed furnace",
abstract = "In many Eastern European countries the emission of pollutants from coal fired domestic and small commercial heating plants is a serious problem. One alternative method to reduce emissions is by burning coal with biomass that is by co-combustion, which would reduce the amount of net CO2 produced, the rate of reduction of coal reserves, and the overall amounts of pollutants. The effects of co-combustion of coal and biomass on the levels of pollutant formation have been studied for a 30 kW domestic boiler. Of particular interest are the emissions of PAH and VOC since it has been shown that these emissions are lowered during co-combustion.The relation between boiler design fuel composition and measured emission profiles for VOC and PAH is discussed in detail. Outputs from modelling of the emissions and devolatilisation characteristics of the fuels have been compared to measured values. Analytical methods have been developed for characterisation of the initial devolatilisation products from both coal and biomass fuels and the relation to modelling is discussed. The fate of these initial devolatilisation products and the effect of boiler design on the formation of PAH and soot in the post combustion zones is addressed.",
keywords = "co-combustion, MODEL, emissions, POLYCYCLIC AROMATIC-COMPOUNDS, modelling, coal biomass, EMISSION",
author = "Jones, {J. M.} and M. Pourkashanian and A. Ross and Lefteris Danos and Bartle, {K. D.} and A. Williams and K. Kubica and J. Andersson and M. Kerst and P. Danihelka",
year = "2000",
language = "English",
isbn = "972-8034-04-0",
volume = "2",
pages = "45--54",
editor = "Albino Reis",
booktitle = "Industrial Furnaces and Boilers",
publisher = "INFORMACAO UTILIZACAO BIOMASSAINFUB",
note = "5th European Conference on Industrial Furnaces and Boilers ; Conference date: 11-04-2000 Through 14-04-2000",
}
RIS
TY - GEN
T1 - The combustion of coal and biomass in a fixed bed furnace
AU - Jones, J. M.
AU - Pourkashanian, M.
AU - Ross, A.
AU - Danos, Lefteris
AU - Bartle, K. D.
AU - Williams, A.
AU - Kubica, K.
AU - Andersson, J.
AU - Kerst, M.
AU - Danihelka, P.
PY - 2000
Y1 - 2000
N2 - In many Eastern European countries the emission of pollutants from coal fired domestic and small commercial heating plants is a serious problem. One alternative method to reduce emissions is by burning coal with biomass that is by co-combustion, which would reduce the amount of net CO2 produced, the rate of reduction of coal reserves, and the overall amounts of pollutants. The effects of co-combustion of coal and biomass on the levels of pollutant formation have been studied for a 30 kW domestic boiler. Of particular interest are the emissions of PAH and VOC since it has been shown that these emissions are lowered during co-combustion.The relation between boiler design fuel composition and measured emission profiles for VOC and PAH is discussed in detail. Outputs from modelling of the emissions and devolatilisation characteristics of the fuels have been compared to measured values. Analytical methods have been developed for characterisation of the initial devolatilisation products from both coal and biomass fuels and the relation to modelling is discussed. The fate of these initial devolatilisation products and the effect of boiler design on the formation of PAH and soot in the post combustion zones is addressed.
AB - In many Eastern European countries the emission of pollutants from coal fired domestic and small commercial heating plants is a serious problem. One alternative method to reduce emissions is by burning coal with biomass that is by co-combustion, which would reduce the amount of net CO2 produced, the rate of reduction of coal reserves, and the overall amounts of pollutants. The effects of co-combustion of coal and biomass on the levels of pollutant formation have been studied for a 30 kW domestic boiler. Of particular interest are the emissions of PAH and VOC since it has been shown that these emissions are lowered during co-combustion.The relation between boiler design fuel composition and measured emission profiles for VOC and PAH is discussed in detail. Outputs from modelling of the emissions and devolatilisation characteristics of the fuels have been compared to measured values. Analytical methods have been developed for characterisation of the initial devolatilisation products from both coal and biomass fuels and the relation to modelling is discussed. The fate of these initial devolatilisation products and the effect of boiler design on the formation of PAH and soot in the post combustion zones is addressed.
KW - co-combustion
KW - MODEL
KW - emissions
KW - POLYCYCLIC AROMATIC-COMPOUNDS
KW - modelling
KW - coal biomass
KW - EMISSION
M3 - Conference contribution/Paper
SN - 972-8034-04-0
VL - 2
SP - 45
EP - 54
BT - Industrial Furnaces and Boilers
A2 - Reis, Albino
PB - INFORMACAO UTILIZACAO BIOMASSAINFUB
CY - Rio Tinto
T2 - 5th European Conference on Industrial Furnaces and Boilers
Y2 - 11 April 2000 through 14 April 2000
ER -