Carbon capture: Process simulation and integration of natural gas combined cycle (NGCC) power plant integrated with chemical absorption carbon capture and compression

Xiaobo Luo; Meihong Wang

doi:10.4324/9781315153209

Carbon capture: Process simulation and integration of natural gas combined cycle (NGCC) power plant integrated with chemical absorption carbon capture and compression

Xiaobo Luo
, Meihong Wang

University of Sheffield

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Rapid increase in emissions of greenhouse gases (GHGs) has become a major concern to the global community. This is associated with the rapid growth in population and corresponding increase in energy demand. Combustion of fossil fuels accounts for the majority of CO₂ emissions. Coal is used mostly for electricity generation, for instance, about 85.5% of coal (produced and imported) in the United 459Kingdom was used for electricity generation in 2011 [1]. Coal-fired power plants are therefore the largest stationary source of CO₂.

Original language	English
Title of host publication	The Water-Food-Energy Nexus
Subtitle of host publication	Processes, Technologies, and Challenges
Publisher	CRC Press
Pages	479-495
Number of pages	17
ISBN (Electronic)	9781498760843
ISBN (Print)	9781498760836
DOIs	https://doi.org/10.4324/9781315153209
State	Published - 1 Jan 2017
Externally published	Yes

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10.4324/9781315153209

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abstract = "Rapid increase in emissions of greenhouse gases (GHGs) has become a major concern to the global community. This is associated with the rapid growth in population and corresponding increase in energy demand. Combustion of fossil fuels accounts for the majority of CO2 emissions. Coal is used mostly for electricity generation, for instance, about 85.5\% of coal (produced and imported) in the United 459Kingdom was used for electricity generation in 2011 [1]. Coal-fired power plants are therefore the largest stationary source of CO2.",

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Carbon capture: Process simulation and integration of natural gas combined cycle (NGCC) power plant integrated with chemical absorption carbon capture and compression. / Luo, Xiaobo; Wang, Meihong.
The Water-Food-Energy Nexus: Processes, Technologies, and Challenges. CRC Press, 2017. p. 479-495.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

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AU - Luo, Xiaobo

AU - Wang, Meihong

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Y1 - 2017/1/1

N2 - Rapid increase in emissions of greenhouse gases (GHGs) has become a major concern to the global community. This is associated with the rapid growth in population and corresponding increase in energy demand. Combustion of fossil fuels accounts for the majority of CO2 emissions. Coal is used mostly for electricity generation, for instance, about 85.5% of coal (produced and imported) in the United 459Kingdom was used for electricity generation in 2011 [1]. Coal-fired power plants are therefore the largest stationary source of CO2.

AB - Rapid increase in emissions of greenhouse gases (GHGs) has become a major concern to the global community. This is associated with the rapid growth in population and corresponding increase in energy demand. Combustion of fossil fuels accounts for the majority of CO2 emissions. Coal is used mostly for electricity generation, for instance, about 85.5% of coal (produced and imported) in the United 459Kingdom was used for electricity generation in 2011 [1]. Coal-fired power plants are therefore the largest stationary source of CO2.

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BT - The Water-Food-Energy Nexus

PB - CRC Press

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Carbon capture: Process simulation and integration of natural gas combined cycle (NGCC) power plant integrated with chemical absorption carbon capture and compression

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