Thermodynamic Analysis of a 500-MWe Subcritical Coal-Fired Thermal Power Plant with Solar-Aided Post-Combustion CO_2 Capture

机译：具有太阳能辅助燃烧后CO_2捕获的500 MWE亚临界燃煤热电厂的热力学分析

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The energy in general and electricity, in particular, plays a key role in the development of any nation. In India, about 60% of electricity demand is fulfilled by coal-based power plants. Increasing CO_2 concentration in the environment is a global problem for which coal-based power plants are the main contributors. The present study is focused on the energy and exergy-based thermodynamic analysis of a 500 MW_e Subcritical thermal power plant with Monoethanolamine (MEA) based post-combustion CO_2 capture. The study is further carried out by using solar energy for reducing the energy penalty against MEA regeneration. A computer software program "Cycle-Tempo" is used for simulating the plants. The study reveals that use of solar energy for MEA regeneration instead of using steam increases the plant energy and exergy efficiencies about 2.4% and 5.4% points, respectively. The CO_2 avoided by the plant is 0.71 kg/kWh. The total solar collector area required is about 347.6 acres.

机译：特别是普通和电力的能量在任何国家的发展中发挥着关键作用。在印度，大约60％的电力需求由煤炭电厂满足。在环境中增加CO_2浓度是一种全球性问题，适用于基于煤的发电厂是主要贡献者。本研究专注于用基于单乙醇胺（MEA）的燃烧后CO_2捕获的500mM_e亚临界火电厂的能量和低级热力学分析。该研究进一步通过利用太阳能来减少对抗MEA再生的能量惩罚。计算机软件程序“Cycle-Tempo”用于模拟植物。该研究表明，利用太阳能进行MEA再生，而不是使用蒸汽，分别增加了植物能量和漏洞效率约为2.4％和5.4％。工厂避免的CO_2为0.71千克/千瓦时。所需的总太阳能收集器面积约为347.6英亩。

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《International Conference on Recent Innovations and Developments in Mechanical Engineering》|2020年|1068p|共13页
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Rajesh Kumar; Ravi Anand; Sujit Karmakar;
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中图分类 TH-53;
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Subcritical power plant; CO_2 capture; MEA; Exergy; Solar energy;

机译：亚临界发电厂;CO_2捕获;MEA;DERERGY;太阳能;

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1. Optimal design for double reheat coal-fired power plants with post-combustion CO_2 capture: A novel thermal system integration with a carbon capture turbine [J] . Fu Wenfeng, Wang Lanjing, Yang Yongping Energy . 2021,第Apra15期

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2. Effective retrofitting of post-combustion CO_2 capture to coal-fired power plants and insensitivity of CO_2 abatement costs to base plant efficiency [J] . Mathieu Lucquiaud, Jon Gibbins International Journal of Greenhouse Gas Control . 2011,第3期

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3. Full-scale CO_2 post-combustion capture in an ultra-supercritical coal-fired power plant: an integral evaluation of capture plant configurations and heat integration options for minimising the energy penalty [J] . Guido Magneschi, Cristina Sanchez Sanchez, Ana Matic, VGB PowerTech . 2014,第4期

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4. Thermodynamic Analysis of a 500-MWe Subcritical Coal-Fired Thermal Power Plant with Solar-Aided Post-Combustion CO_2 Capture [C] . Rajesh Kumar, Ravi Anand, Sujit Karmakar International Conference on Recent Innovations and Developments in Mechanical Engineering . 2020

机译：具有太阳能辅助燃烧后CO_2捕获的500 MWE亚临界燃煤热电厂的热力学分析
5. Investigation of Thermal Integration in a Coal-Fired Power Plant with MEA Post-Combustion Carbon Capture [D] . Martin, Erony Whyte 2011

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7. Analysis of CO2 Post-combustion Capture in Coal-fired Power Plants Integrated with Renewable Energies [O] . Carapellucci Roberto, Giordano Lorena, Vaccarelli Maura 2015

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Thermodynamic Analysis of a 500-MWe Subcritical Coal-Fired Thermal Power Plant with Solar-Aided Post-Combustion CO_2 Capture

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