전과정평가를 활용한 파종상 비료의 탄소배출량 산정 및 맞춤형화학비료와의 탄소배출량 비교

정순철¹, 이태교^*, 정재우¹, 허진호¹, 김윤섭^*

Carbon Footprint of Seeding Elution Control Type Coated Fertilizer using LCA and Its Comparison with Customized Fertilizer

Soon chul Jung¹, Tae gyo Lee^*, Jae woo Jeong¹, Jin ho Huh¹, Yun seob Kim^*

¹㈜엔비누스

²동부팜한농(주)

¹Envinus Co., Ltd.

²Dongbu Farm Hannong CO., Ltd.

ⓒ Copyright 2013 The Korea Society for Life Cycle Assessment. This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Published Online: Oct 31, 2013

Abatract

This study was developed in Dongbu Palm Hannong carbon emissions savings of Seeding Elution Control Type Coated Fertilizer(SECTCF) is a study to prove. So calculate to carbon emissions for the manufacturing phase of SECTCF and compared Customized fertilizers. In addition, when Crop planting are carbon emissions of SECTCF and customized fertilizers input were estimated and compared. Carbon footprint of SECTCF at the manufacturing phase was 0.8563 kg CO2 eq. kg^-1. It 0.0906 kg CO2 eq. kg^-1(12%) higher than customized fertilizers which was analyzed 0.7657 kg CO2 eq. kg^-1. In addition, the carbon footprint of SECTCF and customized fertilizers for cultivation were 54.551 kg CO2 eq. 10a^-1, 111.760 kg CO2 eq. 10a^-1, respectively. This result leads to the conclusion that using the first fertilizer reduces 53.6% of carbon emission. The point of this study is to build practical base of low carbon agricultural strategy on the basis of SECTCF. For showing a correlation between SECTCF and another through additional study, we prove low carbon fertilizer effectiveness.