Greenhouse Gas Emission Mitigation Relevant to Changes in Municipal Solid Waste Management System

Pikoń, Krzysztof; Gąska, Krzysztof

doi:10.3155/1047-3289.60.7.782

Cited by 27 publications

(19 citation statements)

References 5 publications

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“…In recent years, researchers and scientists have developed comprehensive emission management strategies that include carbon sequestration and anaerobic digestion of municipal waste or livestock manure to capture and use CH 4 to generate heat and power. [7][8][9] The agricultural sector is an important source of N 2 O, CH 4 , and CO 2 to the atmosphere. N 2 O is a potent GHG because of its large global warming potential (GWP), which is approximately 310 times higher than that of CO 2 .…”

Section: Introductionmentioning

confidence: 99%

Determining Seasonal Greenhouse Gas Emissions from Ground-Level Area Sources in a Dairy Operation in Central Texas

Borhan

Capareda

Mukhtar

et al. 2011

Journal of the Air & Waste Management Association

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Greenhouse gas (GHG) emissions from agricultural production operations are recognized as an important air quality issue. A new technique following the U.S. Environmental Protection Agency Method TO-14A was used to measure GHG emissions from ground-level area sources (GLAS) in a free-stall dairy operation in central Texas. The objective of this study was to quantify and report GHG emission rates (ERs) from the dairy during the summer and winter using this protocol. A weeklong sampling was performed during each season. A total of 75 and 66 chromatograms of air samples were acquired from six delineated GLAS (loafing pen, walkway, barn, silage pile, settling basin, and lagoon) of the same dairy during summer and winter, respectively. Three primary GHGsmethane (CH 4 ), carbon dioxide (CO 2 ), and nitrous oxide (N 2 O)-were identified from the dairy operation during the sampling periods. The estimated overall ERs for CH 4 , CO 2 , and N 2 O during the summer for this dairy were 274, 6005, and 7.96 g head Ϫ1 day Ϫ1 , respectively. During the winter, the estimated overall CH 4 , CO 2 , and N 2 O ERs were 52, 7471, and 3.59 g head Ϫ1 day Ϫ1 , respectively. The overall CH 4 and N 2 O ERs during the summer were approximately 5.3 and 2.2 times higher than those in the winter for the free-stall dairy. These seasonal variations were likely due to fluctuations in ambient temperature, dairy manure loading rates, and manure microbial activity of GLAS. The annualized ERs for CH 4 , CO 2 , and N 2 O for this dairy were estimated to be 181, 6612, and 6.13 g head Ϫ1 day Ϫ1 , respectively. Total GHG emissions calculated for this dairy with 500 cows were 2250 t of carbon dioxide equivalent (CO 2 e) per year.

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Section: Introductionmentioning

confidence: 99%

Determining Seasonal Greenhouse Gas Emissions from Ground-Level Area Sources in a Dairy Operation in Central Texas

Borhan

Capareda

Mukhtar

et al. 2011

Journal of the Air & Waste Management Association

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“…GHG is emitted within municipal waste management treatment and disposal processes at the landfill. Mainly these are generated emissions such as NO and CO 2 from the combustion process, CH 4 , N 2 O, CO2 from the landfill process, and generally CO 2 from the transportation process, but not in this particular case [10]. Acidification is the cause of a wide range of impacts on soil, groundwater, surface water, organisms, ecosystems and materials (buildings).…”

Section: Resultsmentioning

confidence: 99%

Mathematical Models for Regional Solid Waste Management Development

Teibe

Bendere

Perova³

et al. 2017

Eco-Tech

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The mathematical methods of waste management assessment and software for various life cycle applications are widely used as one of the decision-making support tools in waste policy. This comparatively new approach to waste management planning offers an option for investigating the life cycle impact of solid waste management processes which generate anthropogenic impact on the environment, of which the most unfavorable is greenhouse gas emission. In the research a software application called WAMPS (waste management planning system) developed by the IVL Swedish Environmental Research Institute within the Reco Baltic 21 Tech project has been used to create a better understanding about waste management processes and their produced impact on climate change. It is the first time when WAMPS software is applied for regional domestic waste management planning for the next seven-year period in the Baltic states, in this particular case for the Piejura region, which is one of the ten waste management planning regions in Latvia. The Piejura region includes one city of national level and nine districts, with the total area of about 5,300 sq. km and the number of inhabitants 153,899. In accordance with national legislation, responsibility for waste management organization has been delegated to local municipalities. In this study the solutions for elaboration of the Piejura region waste management strategy are based on those waste management processes which will produce the best environmental options. The main results of the research were obtained comparing various waste management scenarios in WAMPS: the existent situation in regional waste management, where more than 94% of domestic waste is landfilled; European Union framework demands according to Waste and Landfill directives; and the best technological solutions for the Piejura region based on local circumstances. The next phase of research will draw attention to the implementation and integration of the chosen technological solutions on the basis of economical solutions.

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“…al., compared the carbon emissions associated with MSWM in Germany and the UK, and discussed potential for the UK to achieve the waste management strategy targets(focused on low-carbon objection) through increased recycling/separation and landfill legislation [11]. Pikon and Gaskatried to build proper meth-ods for assessing the environmental impact of waste management systems underpinning the development and implementation of sustainable waste management practice [12]. However, few literatures make the quantitative research for low-carbon MSWM, espe-cially in a system level.…”

Section: Literature Reviewmentioning

confidence: 99%

Municipal Solid Waste(MSW) Management in Urbanization Process Based on Dynamical Model

Liu

2014

IJUNESST

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Greenhouse Gas Emission Mitigation Relevant to Changes in Municipal Solid Waste Management System

Cited by 27 publications

References 5 publications

Determining Seasonal Greenhouse Gas Emissions from Ground-Level Area Sources in a Dairy Operation in Central Texas

Determining Seasonal Greenhouse Gas Emissions from Ground-Level Area Sources in a Dairy Operation in Central Texas

Mathematical Models for Regional Solid Waste Management Development

Municipal Solid Waste(MSW) Management in Urbanization Process Based on Dynamical Model

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