Browse > Article
http://dx.doi.org/10.12925/jkocs.2016.33.3.507

Evaluation of Operation Status for Incineration Facility Using Performance Index  

Kim, Jong-Hwan (Dept. of Env. Eng., Seoul National University of Science & Technology)
Park, Joon-Seok (Dept. of Earth & Env. Eng., Kangwon National University)
Phae, Chae-Gun (Dept. of Env. Eng., Seoul National University of Science & Technology)
Publication Information
Journal of the Korean Applied Science and Technology / v.33, no.3, 2016 , pp. 507-520 More about this Journal
Abstract
This research was performed to evaluate incineration facilities with different scale and type using performance index. Incineration facilities of 28 units, which occupying about 15% of 184 units in nationwide, were selected for questionnaire survey. The facilities were classified in scale with large(${\geq}100t/d$), middle(50~<100 t/d), small(<50 t/d) ones, and in type with stoker, pyrolysis, fluidized bed. Performance index was composed of technological, economical, and environmental items, which have 6, 10, and 30 kinds of questions, respectively. As a result of scale evaluation, large scale facility has higher score than small one in all technological, economical, and environmental items. In overall evaluation of the facilities with different type, stoker incinerator has higher score of 65.3 than 59.0 of fludized bed and 58.3 of pyrolysis. It was shown that there was significant difference in economical evaluation field, in all technological, economical, and environmental items.
Keywords
Incineration facility; Stoker; Pyrolysis; Fluidized bed; Performance index;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 Samcheok City, Report on feasibility estimation for landfill Site optimization and integrated management, Report, Dec. (2012).
2 Ministry of Environment, Optimization strategy of solid waste treatment facility for reasonable solid waste treatment and efficient financial investment, Report, Feb. (2011).
3 Korea Environment Corporation, Operation and management status of solid waste treatment facility in local government, Report, Dec. (2012).
4 M. S. Shin, N. R. Shin, D. S. Jang, A numerical study for effective operation of MSW incinerator for waste of high heating value by the addition of moisture air, J. Kor. Soc. Environ. Eng., 35(2), 115-123(2013).   DOI
5 W. G. Choi, R. S. Seo, S. C. Park, Study on the measurement of GHG emissions and error analysis in form the MSW incineration plant equipment with the recovery heat system (2009-2013), J. Env. Sci. Inter., 25(2), 239-246(2016).   DOI
6 Ministry of Environment․ Korea Environment Corporation, Generation and treatment status of municipal solid waste in nationwide, Annual Report (2013, 2015).
7 J. H. Kim, J. S. Park, C. G. Phae, Evaluation of performance index for optimization of food waste treatment and recovery facility, Clean Technol., 22(3), 181-189(2016).   DOI
8 S. M. Hwang, J. D. Jung, J. H. Song, A study in reduction of nitrogen oxide (NOx) and stability of incineration facility by the food wastewater incineration, J. Kor. Soc. Environ. Eng., 31(10), 901-908 (2009).
9 Korea Environmental Technology Research Institute, Study on effective installation and operation of incineration facility, Report, Dec. (1996).
10 S. B. Kim, W. T. Lee, Characterization of fly ash produced from a sewage sludge incineration facility in Korea, J. Kor. Soc. Environ. Eng., 38(2), 96-99(2016).   DOI
11 J. B. Kim, W. K. Kim, Emission characteristics of PCDD/Fs in MSW incineration(I): The Effect of Air Pollution Control Device, J. Kor. Soc. Environ. Eng., 22(10), 1817-1824(2000).
12 R. G. Barton, W. D. Clark, W. S. Lanier, W. R. Seeker, Dioxin emissions from waste incinerators, Chemosphere, 15 (9-12), 1373-1378(1986).   DOI
13 K. D. Yoon, A comparison of operation and dioxin emission characteristics of municipal and industrial waste stoker type incinerator, J. Kor. Soc. Environ. Eng., 25(6), 723-731(2003).