Decomposition Analysis of Greenhouse Gas Emissions in Korea’s

sustainability Article Decomposition Analysis of Greenhouse Gas Emissions in Korea’s Transportation Sector Suyi Kim College of Business Management, Hongik University, 2639 Sejong-ro, Sejong-si 30016, Korea;Get price

Decomposition Analysis of Greenhouse Gas Emissions in Korea’s

Nov 07, 1986 · Abstract. This study analyzed the greenhouse gas (GHG) emissions from the transportation sector in Korea from 1990 to 2013 using Logarithmic Mean Divisia Index (LMDI) factor decomposition methods. We decomposed these emissions into six factors: The population effect, the economic growth effect due to changes in the gross domestic product per capita, the energy intensity effect due to changes in energy consumption per gross domestic product, the transportation mode effect, the energy mixGet price

LMDI decomposition analysis of greenhouse gas emissions in

Nov 01, 2013 · We decomposed greenhouse gas emissions of Koreamanufacturing industry using LMDI. • The structure effect and intensity effect play a role in reducing GHG emissions. • The role of structure effect was bigger than intensity effect. • The energy-mix effect increased and the emission-factor effect decreased GHG emissions. •Get price

Decomposition Analysis of Greenhouse Gas Emissions in Korea’s

"LMDI decomposition analysis of greenhouse gas emissions in the Korean manufacturing sector," Energy Policy, Elsevier, vol. 62(C), pages 1245-1253. Mazzarino, Marco, 2000. " The economics of the greenhouse effect: evaluating the climate change impact due to the transport sector in Italy ," Energy Policy , Elsevier, vol. 28(13), pages 957-966Get price

SOUTH KOREA GREENHOUSE GAS (GHG) EMISSIONS (INCL. FORESTRY

South Korea G20 average GREENHOUSE GAS (GHG) EMISSIONS (INCL. FORESTRY) PER CAPITA (tCO 2e/capita) 1 SOUTH KOREA Country Facts 2018 Source: CAT 2018 Based on implemented policies, South Korea’s GHG emissions are set to increase to around 737 to 753 MtCO 2e in 2030 (excl. forestry). This emission pathway is not compatible with the ParisGet price

LMDI decomposition analysis of greenhouse gas emissions in

In this article, we decomposed Korean industrial manufacturing greenhouse gas (GHG) emissions using the log mean Divisia index (LMDI) method, both multiplicatively and additively. Changes in industrial CO2 emissions from 1991 to 2009 may be studied by quantifying the contributions from changes in five different factors: overall industrial activity (activity effect), industrial activity mixGet price

Characteristics of greenhouse gas - Korea University

Fingerprint Dive into the research topics of 'Characteristics of greenhouse gas emissions from rice paddy fields in South Korea under climate change scenario RCP-8.5 using the DNDC model'. Together they form a unique fingerprint.Get price

South Korea Greenhouse Gas (GHG) Emissions 1970-2021

South Korea Greenhouse Gas (GHG) Emissions 1970-2021. Total greenhouse gas emissions in kt of CO2 equivalent are composed of CO2 totals excluding short-cycle biomass burning (such as agricultural waste burning and Savannah burning) but including other biomass burning (such as forest fires, post-burn decay, peat fires and decay of drained peatlands), all anthropogenic CH4 sources, N2O sources and F-gases (HFCs, PFCs and sf6 gas).Get price

South Korea Policy Recommendations - Climate Scorecard

Jul 22, 2019 · Spotlight Activity: South Korea Policy Recommendations. South Korea accounts for approximately 1.4% of global greenhouse gas emissions (including LULUCF), according to World Resources Institute (2006)’s Climate Analysis Indicators Tool (CAIT) 3.0. In its Paris Agreement INDC pledge, South Korea plans to reduce its greenhouse gas emissions by 37% from the business-as-usual (BAU, 850.6 MtCO2eq) level by 2030 across all economic sectors.Get price

Global Greenhouse Gas Emissions Data | Greenhouse Gas (GHG

Global Emissions by GasGlobal Emissions by Economic SectorTrends in Global EmissionsEmissions by CountryAt the global scale, the key greenhouse gases emitted by human activities are: 1. Carbon dioxide (CO2): Fossil fuel use is the primary source of CO2. CO2 can also be emitted from direct human-induced impacts on forestry and other land use, such as through deforestation, land clearing for agriculture, and degradation of soils. Likewise, land can also remove CO2from the atmosphere through reforestation, improvement of soils, and other activities. 2. Methane (CH4): Agricultural activities, waste management, energy use, and biomass burning all contribute to CH4emissions. 3. Nitrous oxide (N2O): Agricultural activities, such as fertilizer use, are the primary source of N2O emissions. Fossil fuel combustion also generates N2O. 4. Fluorinated gases (F-gases): Industrial processes, refrigeration, and the use of a variety of consumer products contribute to emissions of F-gases, which include hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), and sulfur hexafluoride (sf 6). Black carbon is a...Get price

Greenhouse Gas Emissions from Heavy-duty Natural Gas Vehicles

Greenhouse Gas Emissions from Heavy-duty Natural Gas Vehicles in Korea Jigu Seo1, Seokjoo Kwon2, Sungwook Park3* 1 Graduate School of Hanyang University, Seoul 04763, Korea 2 Korea Automotive Technology Institute, Chungnam 31214, Korea 3 School of Mechanical Engineering, Hanyang University, Seoul 04763, Korea ABSTRACTGet price

South Korea to cut 2030 greenhouse gas emissions by 37

Jun 30, 2015 · South Korea has finalised its 2030 target of reducing greenhouse gas emissions by 37 percent from business-as-usual (BAU) levels, higher than its earlier plan for a 15-30 percent cut.Get price

Measuring greenhouse gas emissions for the transportation

Sep 20, 2013 · This paper presents a methodology of measuring greenhouse gas emissions (mainly CO2) for the transportation sector and illustratively applies it in Korea. The transportation sector is one of the most critical sectors concerning environmental pollution and represents about 20 percent of the yearly total greenhouse gas emissions for the energy sector in Korea.Get price

Korea to reduce greenhouse gas emissions by 37% - YouTube

지구의날: 한국 2030년까지 온실가스 37% 줄인다 April 22nd marks International Earth Day, and to coincide with the date, representatives from over 150 nations are gathering at...Get price

Air and Climate Equipment in South Korea | Environmental XPRT

Compact portable multigas analyser, capable of measuring up to eight flue gases in a range of combustion and emissions processes. Lancom 4 delivers the complete solution for portable flue gas analysis, integrated into a compact battery-powered unit able to measure up to eight gases simultaneously with nine separate sensors.Get price

ACTION TRACKER - Climate Transparency

South Korea submitted its Intended Nationally Determined Contribution (INDC) on 30 June 2015 and proposes an economy-wide target to reduce its greenhouse gas (GHG) emissions by 37% below business-as-usual (BAU) levels of 850.6 MtCO 2 e by 2030. The target is equivalent to limiting GHG emissions in 2030 to 536 MtCO 2 e, which is 81%Get price

What factors cause an increase of greenhouse gas emissions in

,-./012 0 340 5 84. Introduction The greenhouse gas (GHG) emissions of Korea have been increased by 136% from 1990 to 2011. As shown in Fig. 1, this growth rate is the second highestGet price

Greenhouse - Wikipedia

The idea of growing plants in environmentally controlled areas has existed since Roman times. The Roman emperor Tiberius ate a cucumber-like vegetable daily. The Roman gardeners used artificial methods (similar to the greenhouse system) of growing to have it available for his table every day of the year.Get price

Field measurement of greenhouse gas emissions from biological

The Republic of Korea is trying to reduce greenhouse gas emissions by 37% from business-as-usual levels by 2030. Reliable greenhouse gas inventory is prerequisite to making effective greenhouse gas reduction plans. Currently, Intergovernmental Panels on Climate Change default emission factors were u …Get price

The Greenhouse Effect and our Planet | National Geographic

May 18, 2018 · Greenhouse gas emissions affect more than just temperature. Another effect involves changes in precipitation, such as rain and snow. Over the course of the 20th century, precipitation increased in eastern parts of North and South America, northern Europe, and northern and central Asia.Get price

Greenhouse gas - Wikipedia

Gases in EarthAtmosphereImpacts on The Overall Greenhouse EffectNatural and Anthropogenic SourcesRemoval from The AtmosphereHistory of Scientific ResearchFurther ReadingExternal LinksNon-greenhouse gasesGet price

LMDI decomposition analysis of greenhouse gas emissions in

Jeong, Kyonghwa Kim, Suyi, 2013. "LMDI decomposition analysis of greenhouse gas emissions in the Korean manufacturing sector," Energy Policy, Elsevier, vol. 62(C), pages 1245-1253.Get price

Ecology of Greenhouse Gas Emissions from Coastal Wetlands

Overview. (active tab) Wetlands have the potential to absorb large amounts of carbon dioxide via photosynthesis, and flooded soils have low oxygen levels which decrease rates of decomposition to promote the retention of soil carbon. However, the type of greenhouse gases emitted from wetlands varies by wetland type and soil condition. A suite of approaches are being used to assess fluxes of greenhouses gases, like methane, carbon dioxide, and nitrous oxide.Get price

The Economic, Energy, and Emissions Impacts of Climate Policy

of Climate Policy in South Korea Niven Winchester1,2 and John M. reilly1 Abstract: Using an economy-wide model, we evaluate the impact of policies to meet South Korea’s Paris pledge to reduce greenhouse gas (GHG) emissions by 37% relative those under business as usual (BAU) in 2030.Get price

ENERGY-RELATED GREENHOUSE-GAS EMISSIONS IN THE ASEAN A

Understanding how greenhouse-gas emissions for countries in the region has evolved in the past is an important first step to develop meaningful policies. This paper analyses the historical development in CO 2 emissions for the ASEAN countries over the period 1971 to 2009, using an index decomposition method.Get price

Litter decomposition and soil microbial community composition

Sep 10, 2014 · Litter decomposition has profound effects on energy flow and the biogeochemistry of ecosystems. Decomposition of above- and belowground litter not only mineralizes nutrients in plant-available forms that support primary productivity, but it is also among the largest annual CO 2 fluxes to the atmosphere and exerts strong control over the global carbon cycle (Aerts 1997; Parton et al. 2007; vanGet price

Management of Paddy Soil towards Low Greenhouse Gas Emissions

Jan 25, 2019 · Climate change is a vital environmental issue for the twenty-first century, which may significantly affect rice productivity and accelerate greenhouse gas emissions from paddy ecosystem, which is of great environmental concern which is of great environmental concern. Methane (CH4) and nitrous oxide (N2O) are the most important greenhouse gases due to their radiative effects as well as globalGet price

Greenhouse gases - Washington State Department of Ecology

In 2020, the Washington Legislature set new greenhouse gas emission limits in order to combat climate change. Under the law, the state is required to reduce emissions levels: 2020 - reduce to 1990 levels. 2030-45% below 1990 levels. 2040-70% below 1990 levels. 2050-95% below 1990 levels and achieve net zero emissions.Get price