Abstract
The purpose of this study is to compare the effect of a reduction in greenhouse gas (GHG) emissions between the combined heat and power (CHP) plant and boiler, which became the main energy-generating facilities of “anaerobic digestion” (AD) biogas produced in Korea, and analyze the GHG emissions in a life cycle. Full-scale data from two Korean “wastewater treatment plants” (WWTPs), which operated boilers and CHP plants fueled by biogas, were used in order to estimate the reduction potential of GHG emissions based on a “life cycle assessment” (LCA) approach. The GHG emissions of biogas energy facilities were divided into pre-manufacturing stages, production stages, pretreatment stages, and combustion stages, and the GHG emissions by stages were calculated by dividing them into Scope1, Scope2, and Scope3. Based on the calculated reduction intensity, a comparison of GHG reduction effects was made by assuming a scenario in which the amount of biogas produced at domestic sewage treatment plants used for boiler heating is replaced by a CHP plant. Four different scenarios for utilizing biogas are considered based on the GHG emission potential of each utilization plant. The biggest reduction was in the scenario of using all of the biogas in CHP plants and heating the anaerobic digester through district heating. GHG emissions in a life cycle were slightly higher in boilers than in CHP plants because GHG emissions generated by pre-treatment facilities were smaller than other emissions, and lower Scope2 emissions in CHP plants were due to their own use of electricity produced. It was confirmed that the CHP plant using biogas is superior to the boiler in terms of GHG reduction in a life cycle.
Highlights
Korea is one of the OECD (Organization for Economic Cooperation and Development) countries with a rapid increase in greenhouse gas (GHG) emissions, rising about twofold between 1990 and 2014 [1]
According to the 2030 National GHG Reduction Roadmap in Korea, the portion of renewable energy generation will be increased from 6.2% in 2017 to more than 20% in 2030, and 0.4 million tons of GHG will be reduced by improving livestock manure treatment efficiency and biogas production efficiency [2,3]
Idnitshtreioctryh, eaactoinmgpfaorratihvee analysis of GHG reductions showed that the scenario of using all biogas in combined heat and power (CHP) facilities was better than other scenarios
Summary
Korea is one of the OECD (Organization for Economic Cooperation and Development) countries with a rapid increase in greenhouse gas (GHG) emissions, rising about twofold between 1990 and 2014 [1]. The Ministry of Environment established an implementation plan for organic waste resources and biomass energy measures in 2009 and plans to newly expand and install domestic organic waste energy facilities at 28 locations, 5638 tons/day by 2020 [4]. Under this policy of vitalizing organic waste energy, the volume of biogas produced by domestic waste water treatment plants (WWTPs) increased, producing 321 million m3 of biogas per year in 2017—up 1.8 times from 179 million m3 in 2012. Biogas can reduce greenhouse gas emissions by replacing natural gas because biogas is produced from biomass
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