Lao PDR Greenhouse Gas (GHG) Emissions 1970-2021 | MacroTrends

Lao PDR 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 insulating gas).Get price

Assessing California’s Climate Policies—Transportation

Dec 21, 2018 · Chapter 135 of 2017 (AB 398, E. Garcia) requires our office to annually report on the economic impacts and benefits of California’s statutory greenhouse gas (GHG) emission goals—statewide emissions to 1990 levels by 2020 and to 40 percent below 1990 levels by 2030.Get price

Life-cycle Assessment of Greenhouse Gas Emissions from Nam

decommissioning phase as well as the anaerobic decomposition of flooded biomass in the operation phase. This master’s project evaluates the greenhouse gas (GHG) emissions associated with Nam Theun 2 hydroelectric power plant in central Laos. A life cycle perspective is coupled with two Monte CarloGet price

National Greenhouse Gas Inventory Project | Global

The direct objective of this project is to reduce the rate of growth of greenhouse gas emissions in Lao P.D.R. The project will develop an institutional mechanism to coordinate the activities that are necessary to develop policy options related to climate change and comply with the provisions of the UNFCCC, including the submission of LaoFirst National Communication to the UNFCCC.Get price

LIFE CYCLE ASSESSMENT OF GREENHOUSE GAS EMISSIONS FROM NAM

Apr 25, 2011 · LIFE CYCLE ASSESSMENT OF GREENHOUSE GAS EMISSIONS FROM NAM THEUN 2 HYDROELECTRIC PROJECT IN CENTRAL LAOS View / Download 1.2 Mb. Date. 2011-04-25 decomposition ofGet price

Decomposition Analysis of Greenhouse Gas Emissions in Korea’s

Generally, factor decomposition analysis is widely used to analyze the factors that increase GHG emissions. Despite vast research into this area, the factors involved have varied depending on the objects of analysis. The main decomposition methods can be divided into two groups: The Laspeyres and Divisia Indexes.Get price

LMDI decomposition analysis of greenhouse gas emissions in

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

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

The impact of landfilling and composting on greenhouse gas

Municipal solid waste is a significant contributor to greenhouse gas emissions through decomposition and life-cycle activities processes. The majority of these emissions are a result of landfilling, which remains the primary waste disposal strategy internationally. As a result, countries have been incorporating alternative forms of waste management strategies such as energy recovery from landfill gas capture, aerobic landfilling (aerox landfills), pre-composting of waste prior to landfillingGet price

DECOMPOSITION ANALYSIS OF THE EU ENERGY AND GREENHOUSE GAS GOALS

DECOMPOSITION ANALYSIS OF THE EU ENERGY AND GREENHOUSE GAS GOALS Sujeetha Selvakkumaran, Ph. D Semida Silveira, Ph. D. KTH Royal Institute of Technology, Sweden. SWEDISH ASSOCIATION FOR ENERGY ECONOMICS CONFERENCE 2016 1Get price

EIA - Greenhouse Gas Emissions - Land use

Mar 31, 2011 · U.S. greenhouse gas intensity and related factors, 1990-2009 : 3: Distribution of total U.S. greenhouse gas emissions by end-use sector, 2009 : 4: World energy-related carbon dioxide emissions by region, 1990-2035 : 5: Greenhouse gases and 100-year net global warming potentials : 6: U.S. carbon dioxide emissions from energy and industry, 1990Get price

Greenhouse Gases - University of Illinois Urbana-Champaign

Water vapor is a significant greenhouse gas but its concentration in the air is regulated by the equilibrium between H 2O(g) in the atmosphere and H 2O(l) in surface bodies of water. The increases in other greenhouse gases is a direct result of human activity. Below is a table that shows the most important of these. Effect on ClimateGet price

Greenhouse gas emissions - Our World in Data

How do greenhouse gas emissions vary across the world? This interactive chart shows annual greenhouse gas emissions – the amount a given country produces each year – across the world. Again, this is measured in tonnes of carbon dioxide equivalents. As is the case with CO 2 emissions, China is the world’s largest emitter of greenhouseGet 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

Greenhouse gas emissions from green waste composting windrow

The process of composting is a source of greenhouse gases (GHG) that contribute to climate change. We monitored three field-scale green waste compost windrows over a one-year period to measure the seasonal variance of the GHG fluxes. The compost pile that experienced the wettest and coolest weather …Get price

ENERGY-RELATED GREENHOUSE-GAS EMISSIONS IN THE ASEAN A

industrialisation. This has resulted in increased greenhouse-gas emissions, at an average rate of 6.4% per year over the period 1971-2008. The corresponding annual average increases in population, energy consumption, and economic growth are 1.9%, 4.5% and 5.5% per year, respectively. A large proportion (approximately 60%) of theseGet price

The impact of landfilling and composting on greenhouse gas

Municipal solid waste is a significant contributor to greenhouse gas emissions through decomposition and life-cycle activities processes. The majority of these emissions are a result of landfilling, which remains the primary waste disposal strategy internationally.Get price

Carbon Mineralization in Coastal Wetlands, Volume 2 - 1st Edition

Carbon Mineralization in Coastal Wetlands: From Litter Decomposition to Greenhouse Gas Dynamics fills the current knowledge gap in carbon mineralization, providing a balanced view of the carbon dynamics of coastal wetlands. Readers will get a holistic treatment of carbon mineralization, from litter/root decomposition pathways and theirGet price

The impact of landfilling and composting on greenhouse gas

Municipal solid waste is a significant contributor to greenhouse gas emissions through decomposition and life-cycle activities processes. The majority of these emissions are a result of landfilling, which remains the primary waste disposal strategy internationally.Get price

Biogas - Wikipedia

ProductionLandfill GasCompositionBenefits of Manure Derived BiogasApplicationsTechnological AdvancementsLegislationGlobal DevelopmentsAssociationsSociety and CultureBiogas is produced by microorganisms, such as methanogens and sulfate-reducing bacteria, performing anaerobic respiration. Biogas can refer to gas produced naturally or industrially.Get price

Greenhouse gas - Methane | Britannica

Greenhouse gas - Greenhouse gas - Methane: Methane (CH4) is the second most important greenhouse gas. CH4 is more potent than CO2 because the radiative forcing produced per molecule is greater. In addition, the infrared window is less saturated in the range of wavelengths of radiation absorbed by CH4, so more molecules may fill in the region. However, CH4 exists in far lower concentrationsGet price

U.S. EPA Solid Waste Greenhouse Gas Inventory: Background

– Greenhouse Gas Reporting Program –How EPA prepares the landfill methane emissions inventory (methodology and data sources) – QA • Incorporating additional GHGRP data in the Inventory • Specific areas for stakeholder input • QA 2Get price

What is fuel efficiency? | Kia Motors Laos

So, if you want to contribute to a decrease in greenhouse gas emissions, buying a car that boasts better gas mileage may be the best option. Lower Dependence On Oil According to statistics, over 70% of total U.S. on-road vehicles consume oil, and they account for nearly a fourth of the countryemissions, contributing to climate change.Get price

Sinkhole - Solving Drainage and Erosion Problems | Northern

Shovel a few inches of the fill soil into the bottom of the depression and compact it thoroughly with a soil tamper. Continue this process until the depression is filled in. You may want to overfill the hole and create a small dome since it is likely the fill soil will compact and settle over time.Get price

What Are Greenhouse Gases? | Saving Earth | Encyclopedia

Water VapourCarbon DioxideMethaneWater vapour is the most potent greenhouse gas in Earth’s atmosphere, but its behaviour is fundamentally different from that of the other greenhouse gases. The primary role of water vapour is not as a direct agent of radiative forcing but rather as a climate feedback—that is, as a response within the climate system that influences the system’s continued activity. This distinction arises because the amount of water vapour in the atmosphere cannot, in general, be directly modified by human behaviour but is instead set by air temperatures. The warmer the surface, the greater the evaporationrate of water from the surface. As a result, increased evaporation leads to a greater concentration of water vapour in the lower atmosphere capable of absorbing infrared radiation and emitting it back to the surface.Get price

Forest Management for Carbon Benefits | Climate Change

For example, the combustion of wood for energy releases carbon to the atmosphere immediately, whereas carbon released from the decomposition of wood in the forest floor may take years to decades. Because of the dynamics of forest growth, management actions potentially have lasting effects years, decades, or even centuries into the future (11, 12).Get price

Composting - Oklahoma Recycling Association

Composting is collecting organic matter (plant material, food scraps, anything that was once alive) in one place to speed up the microbial decomposition process. Natural decomposition happens every day over time- at farms, in forests, in your front yard, in the park, etc. – but composting can be done in your backyard, in your house, […]Get price

Greenhouse Gas Emissions during Cattle Feedlot Manure

Mar 01, 2001 · The lower emission associated with the passive treatment was mainly due to the incomplete decomposition of manure and a lower gas diffusion rate. In addition, turning affected N transformation and transport in the windrow profile, which contributed to higher N 2 O emissions for the active aeration treatment. Gas diffusion is an important factorGet price

Whiskeytown National Recreation Area Action Plan

Greenhouse Gas Emissions . GHG emissions result from the combustion offossil fuels fortransportation and energy (e.g., heating andcooling, electricity generation),the decomposition of waste and other organic matter, andthe volatilization or release of gases from various other sources (e.g., fertilizers and refrigerants).Get price

Electric Transmission Distribution SF Coalition

Electric Transmission Distribution SF 6 Coalition New Jersey Clean Air Council Annual Public Hearing April 10, 2019 Billy J Lao General Manager –DILO Company Inc. DILO DirectGet price