Browse > Article
http://dx.doi.org/10.15231/jksc.2017.22.1.014

Influence of Biomass Co-firing on a Domestic Pulverized Coal Power Plant In Terms of CO2 Abatement and Economical Feasibility  

Kim, Taehyun (Thermochemical energy system group, Korea Institute of Industrial Technology)
Yang, Won (Thermochemical energy system group, Korea Institute of Industrial Technology)
Publication Information
Journal of the Korean Society of Combustion / v.22, no.1, 2017 , pp. 14-22 More about this Journal
Abstract
Co-firing of renewable fuel in coal fired boilers is an attractive option to mitigate $CO_2$ emissions, since it is a relatively low cost option for efficiently converting renewable fuel to electricity by adding biomass as partial substitute of coal. However, it would cause reducing plant efficiency and operational flexibility, and increasing operation and capital cost associated with handling and firing equipment of renewable fuels. The aim of this study is to investigate the effects of biomass co-firing on $CO_2$ emission and capital/operating cost. Wood pellet, PKS (palm kernel shell), EFB (empty fruit bunch) and sludge are considered as renewable fuels for co-firing with coal. Several approaches by the co-firing ratio are chosen from previous plant demonstrations and commercial co-firing operation, and they are evaluated and discussed for $CO_2$ reduction and cost estimation.
Keywords
Biomass; Co-firing; Pulverized coal; Power plant;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 전력통계정보시스템(https://epsis.kpx.or.kr/)
2 P. Grabowski, Biomass co-firing, Presented to Technical Advisory Committee, March 11, 2004, Washington D. C.
3 K. R. G. Hein, W. Scheurer, Co-combustion of biomass, wastes and residues with coal, EU seminar on the use of coal in mixture with wastes and residues II, 2004, Cottbus, Germany.
4 S. van Loo, Biomass co-firing with coal - An overview of possibilities and constraints, Accelerating the Deployment of Renewable Energy in the Baltic's Riga, 2002, Latvia
5 European Bioenergy Networks, Biomass co-firing-an efficient way to reduce greenhouse gas emissions, 2003
6 T. Y. Mun, Z. T. Tumsa, U. Lee, W. Yang, Evaluation of Plant Performance during Biomass Cofiring in Pulverized Coal Power Plant, J. Korean Soc. Combust. (2015) 8-17
7 C. W. Philip, J. H. Kwong, J. H. Wang, C. Chao, C. W. Cheung, G. Kendall, Effect of Co-combustion of Coal and Rice Husk on Combustion Performance and Pollutant Emissions, The Seventh Asia-Pacific International Symposium on Combustion and Energy Utilization, 15-17 December, 2004, Hong Kong
8 European Biomass Industry Association (EUBIA), Experiences in Europe and list of biomass co-fring plants, Available on-line site (http://www.eubia.org/338.0.html)
9 S. W. Kim, M. C. Shin, C. Y. Lee, The Effect of Biomass Reburning with Rice Husk on NOx Reduction in Light Oil Flame, J. Korean Soc. Combust. 16 (2011) 8-14
10 IEA Bioenergy Task 40, Efficient trading of biomass fuels and analysis of fuel supply chains and business models for market actors by networking, 2006
11 C. Antonio, C. Caputo, M. Palumbo, M. Pacifico, Economics of biomass energy utilization in combustion and gasification plants: effects of logistic variables, Biomass Bioenerg., 28 (2005) 35-51.   DOI
12 D. A. Tillman, "Biomass cofiring: the technology, the experience, the combustion consequences", Biomass Bioenerg., 19 (2000) 365-384.   DOI
13 S. De, M. Assadi, Impact of co-firing biomass with coal in power plants - A techno-economic assessment, Biomass Bioenerg,, 33 (2009) 289-293.