Carbon dioxide capture from a real coal-fired flue gas using K-based solid sorbents in a 0.5 MWe-scale test-bed facility

The CO2 capturing technologies as applied to FCC flue gas in order to reduce GHG (green house gases) were evaluated and compared in this review. Although the CCS (carbon capture and storage) idea has been proposed for more than 30 years, there has been little commercial success of CCS projects. The largest issue is where to store the massive amount of captured pure CO2 every year. Therefore, the review will focus on the efficient use of power or heat to reduce CO2 emission and how to recycle the use of produced CO2 before it is emitted to the atmosphere rather than being captured and stored. The scenarios with oxyfiring, microalgae-cofiring or biogas burning to treat FCC flue gas are introduced and discussed.

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Long-term operation of carbon dioxide capture system from a real coal-fired flue gas using dry regenerable potassium-based sorbents

Energy Procedia ◽

10.1016/j.egypro.2009.01.162 ◽

2009 ◽

Vol 1 (1) ◽

pp. 1235-1239 ◽

Cited By ~ 40

Author(s):

Young Cheol Park ◽

Sung-Ho Jo ◽

Chong Kul Ryu ◽

Chang-Keun Yi

Keyword(s):

Carbon Dioxide ◽

Flue Gas ◽

Carbon Dioxide Capture ◽

Term Operation

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Silica-coated multi-walled carbon nanotubes impregnated with polyethyleneimine for carbon dioxide capture under the flue gas condition

Journal of Solid State Chemistry ◽

10.1016/j.jssc.2015.01.031 ◽

2015 ◽

Vol 226 ◽

pp. 17-23 ◽

Cited By ~ 18

Author(s):

Min-Sang Lee ◽

Soo-Jin Park

Keyword(s):

Carbon Dioxide ◽

Carbon Nanotubes ◽

Flue Gas ◽

Carbon Dioxide Capture ◽

Multi Walled Carbon Nanotubes ◽

Walled Carbon Nanotubes

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Sub-ambient temperature flue gas carbon dioxide capture via Matrimid® hollow fiber membranes

Journal of Membrane Science ◽

10.1016/j.memsci.2014.03.060 ◽

2014 ◽

Vol 465 ◽

pp. 49-55 ◽

Cited By ~ 22

Author(s):

Lu Liu ◽

Edgar S. Sanders ◽

Sudhir S. Kulkarni ◽

David J. Hasse ◽

William J. Koros

Keyword(s):

Carbon Dioxide ◽

Ambient Temperature ◽

Hollow Fiber ◽

Flue Gas ◽

Carbon Dioxide Capture ◽

Hollow Fiber Membranes ◽

Fiber Membranes

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Experimental Study of Carbon Dioxide Capture from Synthetic Industrial Incinerator Flue Gas with a Pilot and Laboratory Measurements

Procedia Engineering ◽

10.1016/j.proeng.2012.07.463 ◽

2012 ◽

Vol 42 ◽

pp. 704-720 ◽

Cited By ~ 1

Author(s):

I. Aouini ◽

A. Ledouxa ◽

L. Estel ◽

S. Mary ◽

P. Evrard ◽

...

Keyword(s):

Carbon Dioxide ◽

Experimental Study ◽

Flue Gas ◽

Carbon Dioxide Capture ◽

Laboratory Measurements

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Development of Multimode Gas Fired Combined Cycle Chemical-Looping Combustion Based Power Plant Lay-Outs

10.21203/rs.3.rs-735652/v1 ◽

2021 ◽

Author(s):

Basavaraja Revappa Jayadevappa

Keyword(s):

Carbon Dioxide ◽

Power Plant ◽

Natural Gas ◽

Flue Gas ◽

Power Plants ◽

Carbon Dioxide Capture ◽

Combined Cycle ◽

Chemical Looping Combustion ◽

Chemical Looping ◽

Operating Pressure

Abstract Operation of power plants in carbon dioxide capture and non-capture modes and energy penalty or energy utilization in such operations are of great significance. This work reports on two gas fired pressurized chemical-looping combustion power plant lay-outs with two inbuilt modes of flue gas exit namely, with carbon dioxide capture mode and second mode is letting flue gas (consists carbon dioxide and water) without capturing carbon dioxide. In the non-CCS mode, higher thermal efficiencies of 54.06% and 52.63% efficiencies are obtained with natural gas and syngas. In carbon capture mode, a net thermal efficiency of 52.13% is obtained with natural gas and 48.78% with syngas. The operating pressure of air reactor is taken to be 13 bar for realistic operational considerations and that of fuel reactor is 11.5 bar. Two power plant lay-outs developed based combined cycle CLC mode for natural gas and syngas fuels. A single lay-out is developed for two fuels with possible retrofit for dual fuel operation. The CLC Power plants can be operated with two modes of flue gas exit options and these operational options makes them higher thermal efficient power plants.

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