Quantifying and managing regional greenhouse gas emissions: waste sector of Daejeon, Korea

J Environ Sci (China). 2014 Jun 1;26(6):1249-59. doi: 10.1016/S1001-0742(13)60596-3.

Abstract

A credible accounting of national and regional inventories for the greenhouse gas (GHG) reduction has emerged as one of the most significant current discussions. This article assessed the regional GHG emissions by three categories of the waste sector in Daejeon Metropolitan City (DMC), Korea, examined the potential for DMC to reduce GHG emission, and discussed the methodology modified from Intergovernmental Panel on Climate Change and Korea national guidelines. During the last five years, DMC's overall GHG emissions were 239 thousand tons CO2 eq./year from eleven public environmental infrastructure facilities, with a population of 1.52 million. Of the three categories, solid waste treatment/disposal contributes 68%, whilst wastewater treatment and others contribute 22% and 10% respectively. Among GHG unit emissions per ton of waste treatment, the biggest contributor was waste incineration of 694 kg CO2 eq./ton, followed by waste disposal of 483 kg CO2 eq./ton, biological treatment of solid waste of 209 kg CO2 eq./ton, wastewater treatment of 0.241 kg CO2 eq./m(3), and public water supplies of 0.067 kg CO2 eq./m(3). Furthermore, it is suggested that the potential in reducing GHG emissions from landfill process can be as high as 47.5% by increasing landfill gas recovery up to 50%. Therefore, it is apparent that reduction strategies for the main contributors of GHG emissions should take precedence over minor contributors and lead to the best practice for managing GHGs abatement.

Keywords: Solid waste disposal; biological treatment of solid waste; public water supply; waste incineration; wastewater treatment.

Publication types

  • Research Support, Non-U.S. Gov't
  • Review

MeSH terms

  • Air Pollution / analysis
  • Air Pollution / prevention & control
  • Air Pollution / statistics & numerical data*
  • Gases*
  • Greenhouse Effect
  • Republic of Korea
  • Waste Management

Substances

  • Gases