Browse > Article
http://dx.doi.org/10.5322/JESI.2013.22.4.425

Life Cycle Assessment for the Business Activities of Green Company -2. Mass Balance and Environmental Improvement  

Shin, Choon-Hwan (Department of Energy & Environmental Engineering, Dongseo University)
Park, Do-Hyun (Busan Fashion Color Industry Cooperation, Energy Environment Center)
Publication Information
Journal of Environmental Science International / v.22, no.4, 2013 , pp. 425-433 More about this Journal
Abstract
A mass balance of process was calculated by using the analysis of basic unit and environmental assessment of all the processes of Busan fashion color industry cooperative that operates a combined heat and power plant and a bio treatment plant. The mass balance for the combined heat and power plant was done, based on boiler and water treatment processes while each unit reactor was used for the bio treatment plant. From the results above, a resource recycle network, a treatment flowchart for food waste water/wastewater treatment and a carbon reduction program were established.
Keywords
Mass Balance of process; Environmental assessment; Resource recycle network; Carbon reduction program;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Busan Fashion Color Cooperative, 2011, Plan of environmental improvement for green company appointment.
2 Charles, C., Reith, M., Guidry, J., 2003, Eco- efficiency analysis of an agricultural research complex, J. Environ. Manage., 68, 219-229.   DOI   ScienceOn
3 Committee of Green Growth, 2009, Five-year plane for national strategy of green growth.
4 Dai, T., 2010, Two quantitative indices for the planning and evaluation of eco-industrial parks, Resources, Conserv. Recy., 54, 442-448.   DOI   ScienceOn
5 Energy Management Corporation, 2011, Handbook of energy & climate change.
6 Helminen, R. R., 2000, Developing tangible measures for eco-efficiency: the case of the Finnish and Swedish pulp and paper industry, Bus. Strat. Environ., 9(3), 196-210.   DOI
7 Hoffmann, V. H., Busch, T., 2008, Corporate carbon performance indicators, J. Ind. Ecol., 12(4), 505- 520.   DOI   ScienceOn
8 IPCC, 2006, Guidelines for National Greenhouse Gas Inventories.
9 Lee, D. H., Kim, H., 2005, LCA for the technology of municipal waste and adaptation of waste management, research report of UOS.
10 Min. of Environment, 2009, Regulation of carbon point, notification of 2009-87.
11 Min. of Environment, 2011, Index for management of greenhouse gas & energy.
12 Min. of Environment, 2011, Management regulation of green company appointment, notification of 2011-117.
13 Min. of Knowl. & Eco. Kitech, 2003, Outline for environmental management of smaller enterprise.
14 Park, D. H., 2010, Manufacturing apparatus(15ton/d) for solid fuel using sludge of dyeing wastewater, Min. of Knowl. & Eco.
15 Park, D. H., co-treatment of dyeing wastewater and food wastewater, patent 10-1030787.
16 Park, D. H., solid-type fuel and it's apparatus using sludge of dyeing wastewater, patent 10-1017900.
17 Prime Minister's Office, 2010, Fundamental law 9931 for law carbon & green growth.
18 Shim, H. S., 2010, An Eco-Efficiency Evaluation in terms of green house gas emission for the Korean fossil fuel-fired power generation industry, Master's Thesis, Ajou University, Korea.
19 Shin, C. H., Kim, J. W., 2012, Eco-efficiency of energy symbiosis for the energy network of surplus heat, J. Environ. Sci., 21(5), 545-553.
20 Shin, C. H., Park, D. H., 2013, Life cycle assessment for the business activities of green company 1. Analysis of process flow and basic unit. J. Environ. Sci., in print.
21 WBCSD, 2004, A guide to reporting company performance, Geneva.