Abdullah Al Monsur, Atika Rahman Paddo, F. M. Mohammedy
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引用次数: 2
摘要
世界正在走向一个伟大的未来,对电力的需求日益增加。为了应付不断增长的需求,更多的发电厂投入使用。大多数发电厂使用化石燃料发电,因此排放到空气、水和土壤中。本研究使用生命周期评估方法来测量温室气体(GHG)排放及其对全球变暖的影响,并分析孟加拉国天然气热电厂每单位千瓦时发电对气候变化的影响。这里研究的工厂包括不同类型的单元,并使用天然气作为燃料。分析方法为CML 2001和Eco-Indicator 99(H)。天然气热电厂的温室气体排放总量和气候变化潜势(CCP)分别为0.529 kg CO2当量/kWh和1.51E-8 DALY/kWh发电。该研究还表明,天然气联合循环装置比任何燃气发动机装置或模块化装置排放的温室气体更少。
Life Cycle Assessment of Climate Change and GHG Emission from Natural Gas Thermal Power Plant
The world is advancing towards a great future where the demand of electricity is rising day by day. In order to cope up with this rising demand, more power plants are commissioned. Most of the power plants use fossil fuel to produce electricity, hence are subjected to emissions to air, water and soil. This study uses life cycle assessment approach to measure the greenhouse gas (GHG) emission and its impact on global warming as well as to analyze the effect on climate change per unit kWh of electricity produced in a natural gas thermal power plant in the context of Bangladesh. The plant studied here comprises of different types of units and uses natural gas as fuel. The methods used in the analysis are CML 2001 and Eco-Indicator 99(H). The total GHG emission and climate change potential (CCP) from the natural gas thermal power plant were respectively 0.529 kg CO2 eq/kWh and 1.51E-8 DALY/kWh electricity generation. This study also shows that a natural gas combined cycle unit emits less greenhouse gas than any gas engine unit or modular unit.
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