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Estimation of Greenhouse Gas Emissions of Complex Fertilizers Production System by Using Life Cycle Assessment
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 Title & Authors
Estimation of Greenhouse Gas Emissions of Complex Fertilizers Production System by Using Life Cycle Assessment
Jung, Soon-Chul; Park, Jeong-A; Huh, Jin-Ho; So, Kyu-Ho;
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 Abstract
Currently among the several methods to estimate an environmental impact of products, Life Cycle Assessment (LCA) technique is mostly used. The Ministry of Environment has been performed the carbon footprint labelling to give the carbon record of product by using this method. But the calculation of carbon footprint in primary agricultural product which is raw material of the processed food cannot be made because there is lack of methodology and LCI DB at agriculture sector. Therefore, LCA carried out to estimate carbon footprint, and established LCI DB for complex fertilizers (21-17-17 1 kg, 17-21-17 1 kg, 15-15-15 1 kg, Unspecified 1 kg) in the production system. The result of LCI DB analysis focussed on the GHG, and it was observed that the values of carbon footprint were for 21-17-17, for 17-21-17, for 15-15-15 and for Unspecified. For the analysis of LCIA (Life Cycle Impact Assessment) on complex fertilizers in the production system, the carbon footprint from pre-manufacturing phase is contributed to 98.96%, 98.81%, 98.88% and 99.30% on each complex fertilizer with 21-17-17, 17-21-17, 15-15-15, and Unspecified, respectively. These results will be used in basic data for estimation of agricultural greenhouse gas emissions.
 Keywords
Agriculture;Complex fertilizer;GHG;LCA;
 Language
Korean
 Cited by
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 References
1.
농림수산식품부. 2010. 농림수산식품분야 탄소표시제 및 탄소포인트제 도입방안.

2.
환경부. 2010. 탄소성적표지 인증제품 현황.

3.
IPCC (Intergovernmental Panel on Climate Change). 1996. The Revised 1996 IPCC Guideline for National Greenhouse Gas Inventories. Geneva. Switzerland.

4.
ISO (International Organization for Standardization). 2006. ISO 14040:2006(E) Environmental management - Life cycle assessment - Principles and Framework.

5.
KFIA (Korea Fertilizer Industry Association). 2007. fertilizer production data. Korea Fertilizer Industry Association. Seoul, Korea. www.fert-kfia.or.kr. accessed on August 2010.

6.
KAB (korea Accreditation Board). 1998. Theory and Guidelines of Life Cycle Assessment. Seoul, korea.

7.
KREI (Korea Rural Economic Institute). 2009a. A Comparative Study of Korean Agriculture based on International Agricultural Statistics. Seoul, Korea.

8.
KREI (Korea Rural Economic Institute). 2009b. The World Agriculture Statistics (Major Agriculture Statistics in OECD countries). Seoul, Korea.