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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Operational and vehicular strategies for reducing fuel consumption and GHG emissions from trucking

Thompson, Melissa Renee 20 December 2010 (has links)
Reducing fuel consumption and greenhouse gas emissions is becoming increasingly important in the United States, and new legislation can be expected in the near future that will affect trucks either directly or indirectly. This work is a qualitative examination of operational strategies for reducing fuel consumption from freight trucking, and also compares them with vehicular strategies. A focus is placed on who implements, benefits from, and pays for each strategy, and what type of trucking each strategy is applicable to. / text
2

Le plan climat-air-énergie de la Métropole Aix-Marseille-Provence : une analyse juridique / The climate planning document of Aix-Marseille-Provence Metropolis : a legal study

Brotons, Jefferson 19 December 2018 (has links)
À travers l'analyse de la politique climatique à l'échelle intercommunale, la question est aujourd'hui de savoir si le cadre règlementaire apparaît à la fois juridiquement efficace et effectif dans la réalisation des objectifs intercommunaux d'atténuation des émissions de gaz à effet de serre et d'adaptation au changement climatique. Cette analyse prend pour objet d'étude la constitution du plan climat de la Métropole Aix-Marseille-Provence, institution concernée par un ensemble des réformes territoriales, et ce notamment dans la construction de sa politique climatique métropolitaine / Through the analysis of the legal components of the climate action at an intercommunal scale, the question is whether the legal framework built in order to reach the objectives of GHG emissions mitigation and climate change adaptation appears suitable in terms of efficacy and implementation. We explore the establishment of the climate planning document of Aix-Marseille-Provence Metropolis, an institution affected by numerous structural changes in link with territorial reforms
3

Spatial and temporal variation In greenhouse gas flux as affected by mowing on grasslands of hummocky terrain In Saskatchewan

Braun, Matthew David 15 September 2005
Global climate change has been linked to the increase in greenhouse gas (GHG) emissions. Mixedgrass Prairie of hummocky terrain in Saskatchewan is an understudied landscape contributing an unknown quantity of greenhouse gases (GHGs) to global climate change. The objectives of this study were to determine the effects of topography and mowing on carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) flux and to correlate them with environmental and plant community characteristics. The study site was located in the Northern Mixedgrass Prairie of the Missouri Coteau near Macrorie, SK. April mowing and an unmowed control were imposed on six different landform elements. Carbon dioxide, CH4 and N2O were measured every 7-10 days from spring until fall for two years with closed, vented chambers. Soil physical characteristics, weather and plant community characteristics were measured. Landform element and mowing influenced the flux of all three gases in both sampling seasons. Soil CO2 flux ranged from 3.1 to 23.3 kg CO2-C ha-1 d-1 among the unmowed control plots and 3.6 to 26.4 kg CO2-C ha-1 d-1 after mowing. Soils were a net sink for CH4, consuming 1.4 to 4.4 g CH4-C ha-1 d-1 among the unmowed control plots and 1.8 to 4.1 g CH4-C ha-1 d-1 among the mowed plots. Nitrous oxide flux ranged from -0.25 to 1.17 g N2O-N ha-1 d-1 among the unmowed control plots and -0.20 to 1.51 g N2O-N ha-1 d-1 among the mowed plots. Greenhouse gas flux changed from year-to-year and within years. The greatest GHG flux rate occurred in the depression landform element. Mowing increased the positive flux of CO2 and N2O while increasing the negative flux of CH4. Species composition was correlated with soil water, topography, percentage litter cover and GHG flux rate. Overall, the Mixedgrass Prairie of Saskatchewan likely contributes very little to GHGs. Properly managed, the Mixedgrass Prairie has a well-balanced nutrient cycle that includes various GHGs. The grassland ecosystem plays a role in mitigating climate change by retaining carbon that would be released to the atmosphere with poor grazing management or the conversion to arable agriculture. Government agencies and the ranching industries could best mitigate GHG emissions of Mixedgrass Prairie in Saskatchewan by promoting the retention of above-ground plant material, increasing below-ground carbon sequestration and the avoidance of conversion to cropland.
4

Role of Nuclear Energy in Japan Post–Fukushima : Alternatives and their Impact on Japan’s GHG Emission Targets

Niazi, Zarrar January 2013 (has links)
The purpose of this paper, “Role of Nuclear Energy in Japan Post – Fukushima: Alternatives and their Impact onJapan’s GHG Emission Targets”, is to emphasize that Japan’s expected new energy policy must be in accordancewith its existing environmental targets with regards to GHG emissions. The main research question is how Japan cancontinue to meet its emissions targets in the aftermath of the Fukushima crisis, where public opinion—gaugedthrough newspaper articles—in Japan has now become outright anti-nuclear, and Japan has become compelled toadopt a new nuclear-free energy policy built around renewable energy. However, given the extremely low share ofrenewable energy in Japan’s existing energy mix, an extremely pro-nuclear government, an influential energy lobbyand an overall lack of suitable infrastructure; this goal does appear ambitious. The framework of analysis in thispaper will be of ‘sustainable development’, entailing an analysis of the three pillars of sustainability – environment,economy and social factors. In addition to these factors, security of supply will also be considered as a vital measureto determine the policy’s overall sustainability. The paper will show that while it is indeed possible for Japan tomeet its GHG emissions targets by replacing nuclear energy with renewable energy, Japan’s ability to deployrenewable energy at such a large scale remains inadequate. Through a comparison with the German experience inrenewable energy, any withdrawal from nuclear energy without properly propping up renewable energy will onlyresult in a greater shift towards primary fossil fuels – jeopardizing Japan’s emission targets, security of supply andincurring heavy import costs to its economy. The result of this analysis is to suggest measures such as an expansiveFeed-in tariff system, grid integration and stability and investment in R&D as major components of a focused andlong term energy policy up till 2030, to promote renewable energy. This paper will also posit steps required toimprove the safety and efficiency of its nuclear reactors during the interim period when renewable energy grows inits share of Japan’s energy mix.
5

Spatial and temporal variation In greenhouse gas flux as affected by mowing on grasslands of hummocky terrain In Saskatchewan

Braun, Matthew David 15 September 2005 (has links)
Global climate change has been linked to the increase in greenhouse gas (GHG) emissions. Mixedgrass Prairie of hummocky terrain in Saskatchewan is an understudied landscape contributing an unknown quantity of greenhouse gases (GHGs) to global climate change. The objectives of this study were to determine the effects of topography and mowing on carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) flux and to correlate them with environmental and plant community characteristics. The study site was located in the Northern Mixedgrass Prairie of the Missouri Coteau near Macrorie, SK. April mowing and an unmowed control were imposed on six different landform elements. Carbon dioxide, CH4 and N2O were measured every 7-10 days from spring until fall for two years with closed, vented chambers. Soil physical characteristics, weather and plant community characteristics were measured. Landform element and mowing influenced the flux of all three gases in both sampling seasons. Soil CO2 flux ranged from 3.1 to 23.3 kg CO2-C ha-1 d-1 among the unmowed control plots and 3.6 to 26.4 kg CO2-C ha-1 d-1 after mowing. Soils were a net sink for CH4, consuming 1.4 to 4.4 g CH4-C ha-1 d-1 among the unmowed control plots and 1.8 to 4.1 g CH4-C ha-1 d-1 among the mowed plots. Nitrous oxide flux ranged from -0.25 to 1.17 g N2O-N ha-1 d-1 among the unmowed control plots and -0.20 to 1.51 g N2O-N ha-1 d-1 among the mowed plots. Greenhouse gas flux changed from year-to-year and within years. The greatest GHG flux rate occurred in the depression landform element. Mowing increased the positive flux of CO2 and N2O while increasing the negative flux of CH4. Species composition was correlated with soil water, topography, percentage litter cover and GHG flux rate. Overall, the Mixedgrass Prairie of Saskatchewan likely contributes very little to GHGs. Properly managed, the Mixedgrass Prairie has a well-balanced nutrient cycle that includes various GHGs. The grassland ecosystem plays a role in mitigating climate change by retaining carbon that would be released to the atmosphere with poor grazing management or the conversion to arable agriculture. Government agencies and the ranching industries could best mitigate GHG emissions of Mixedgrass Prairie in Saskatchewan by promoting the retention of above-ground plant material, increasing below-ground carbon sequestration and the avoidance of conversion to cropland.
6

Environmental and techno-economic analysis of ground source heat pump systems

Hanova, Jana 11 1900 (has links)
Climate change stabilization requires an unprecedented effort to change our current approach to energy production and consumption. While rising energy prices are drawing increased attention to reducing energy demand, heightened concern about the environmental consequences of fuel choice requires that this demand be met at lower emission levels. In Canada, the realization of commitments to our GHG emission goals entails reducing residential energy use - a sector responsible for close to 20 percent of end-use energy consumption. This study focuses on the energy demand and emission levels of space and water heating, since these two components comprise 76 percent of residential energy demand. Ground source heat pumps (GSHPs) are a technology that provides heating at 25 to 30 percent of the energy consumed by even the most efficient conventional alternatives. GSHPs have been identified as the most energy-efficient, environmentally clean, and cost-effective space conditioning systems available. However, their drawbacks have been high capital costs, and uncertainty about whether the electric power used by heat pumps has higher system-wide emissions. This thesis delineates how adoption of GSHPs in the residential sector can help align Canada’s technology choices with commitments made to the Kyoto Protocol. The manuscripts delineate conditions under which GSHP systems achieve the largest net emission reductions relative natural gas, heating oil, and electric heat counterparts. Electricity generation methods and emissions embodied in inter-provincial and international electricity trade are shown to significantly affect the emission savings achievable through GSHP. The thesis quantifies how relative fuel prices influence annual operating savings that determine how rapidly the technology can achieve payback. This analysis reveals GSHPs to hold significant potential for substantial GHG reductions at a cost savings relative to conventional alternatives; the time horizons for payback are as short as nine years for average-sized homes, and significantly shorter for larger homes.
7

Environmental and techno-economic analysis of ground source heat pump systems

Hanova, Jana 11 1900 (has links)
Climate change stabilization requires an unprecedented effort to change our current approach to energy production and consumption. While rising energy prices are drawing increased attention to reducing energy demand, heightened concern about the environmental consequences of fuel choice requires that this demand be met at lower emission levels. In Canada, the realization of commitments to our GHG emission goals entails reducing residential energy use - a sector responsible for close to 20 percent of end-use energy consumption. This study focuses on the energy demand and emission levels of space and water heating, since these two components comprise 76 percent of residential energy demand. Ground source heat pumps (GSHPs) are a technology that provides heating at 25 to 30 percent of the energy consumed by even the most efficient conventional alternatives. GSHPs have been identified as the most energy-efficient, environmentally clean, and cost-effective space conditioning systems available. However, their drawbacks have been high capital costs, and uncertainty about whether the electric power used by heat pumps has higher system-wide emissions. This thesis delineates how adoption of GSHPs in the residential sector can help align Canada’s technology choices with commitments made to the Kyoto Protocol. The manuscripts delineate conditions under which GSHP systems achieve the largest net emission reductions relative natural gas, heating oil, and electric heat counterparts. Electricity generation methods and emissions embodied in inter-provincial and international electricity trade are shown to significantly affect the emission savings achievable through GSHP. The thesis quantifies how relative fuel prices influence annual operating savings that determine how rapidly the technology can achieve payback. This analysis reveals GSHPs to hold significant potential for substantial GHG reductions at a cost savings relative to conventional alternatives; the time horizons for payback are as short as nine years for average-sized homes, and significantly shorter for larger homes.
8

Environmental and techno-economic analysis of ground source heat pump systems

Hanova, Jana 11 1900 (has links)
Climate change stabilization requires an unprecedented effort to change our current approach to energy production and consumption. While rising energy prices are drawing increased attention to reducing energy demand, heightened concern about the environmental consequences of fuel choice requires that this demand be met at lower emission levels. In Canada, the realization of commitments to our GHG emission goals entails reducing residential energy use - a sector responsible for close to 20 percent of end-use energy consumption. This study focuses on the energy demand and emission levels of space and water heating, since these two components comprise 76 percent of residential energy demand. Ground source heat pumps (GSHPs) are a technology that provides heating at 25 to 30 percent of the energy consumed by even the most efficient conventional alternatives. GSHPs have been identified as the most energy-efficient, environmentally clean, and cost-effective space conditioning systems available. However, their drawbacks have been high capital costs, and uncertainty about whether the electric power used by heat pumps has higher system-wide emissions. This thesis delineates how adoption of GSHPs in the residential sector can help align Canada’s technology choices with commitments made to the Kyoto Protocol. The manuscripts delineate conditions under which GSHP systems achieve the largest net emission reductions relative natural gas, heating oil, and electric heat counterparts. Electricity generation methods and emissions embodied in inter-provincial and international electricity trade are shown to significantly affect the emission savings achievable through GSHP. The thesis quantifies how relative fuel prices influence annual operating savings that determine how rapidly the technology can achieve payback. This analysis reveals GSHPs to hold significant potential for substantial GHG reductions at a cost savings relative to conventional alternatives; the time horizons for payback are as short as nine years for average-sized homes, and significantly shorter for larger homes. / Science, Faculty of / Resources, Environment and Sustainability (IRES), Institute for / Graduate
9

Improvement of the Energy Efficiency and GHG Emissions Management Systems of an O&G Company's E&P Operated Assets

Gómez Blanco, Paula Andrea January 2013 (has links)
The Oil and Gas (O&G) Industry has been one of the most environmentally questioned sectors in the lastdecades, where the management of the resources and impact over natural life has been severelycriticized. There are many adverse effects of the activities around the O&G business, from which theconsumption of energy and the emissions of Greenhouse Gases (GHG) stand out to be one of the mostimportant aspects to mitigate. This project studies the actual EnMS in E&P and develops measures of improvement using establishedmanagement tools in the division, applying the principles of the ISO 50001 Standard, to include energysavings and GHG emissions mitigation in the lifecycle of Repsol’s E&P operated assets. The main focuslands over three core elements: the Integrated Project Management platform for new projects, the EnergyPlanning follow-up applications, and the implementation of relevant energy audit outlines.
10

Comparative Analysis of Wind, Solar and Landfill Gases as Alternative Sources of Energy for Electricity Generation

Verma, Suruchi 17 December 2010 (has links)
The document reviews the current and projected electricity demand until the year 2030 along with the fuel mix. Several projections based on different agencies were studied in order to understand the trend of fuel mix projected to be used. Clearly, the fuel mix being used or projected is unsustainable. Depletion of fossil fuels, increasing demand and environmental impacts are some of the factors that emphasize the use of Alternative Sources of Electricity. Three of the upcoming Alternative Sources - Solar, Wind and Landfill Gases - are discussed and compared in the document. Based on the comparison, Landfill Gas projects seem to be very favorable, despite the higher costs related with such projects, several advantages over the other two Alternative Sources are discussed in the document. The several advantages of Landfill Gas projects, such as emissions reduction, better power quality, reduction in transmission losses, and several others are discussed in the document

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