Simulation of a calcium looping CO<sub>2</sub> capture process for pressurized fluidized bed combustion

Duhoux, Benoît; Symonds, Robert T.; Hughes, Robin W.; Mehrani, Poupak; Anthony, Edward J.; Macchi, Arturo

doi:10.1002/cjce.23569

Cited by 5 publications

(2 citation statements)

References 23 publications

(38 reference statements)

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“…In the past, many different types of reactors have been used in the calcium looping process [18][19][20]. Rotating drums are simple devices wherein particles move as the container rotates around a central axis, and they can be of different shapes (e.g., circular, elliptical, square, and pentagonal).…”

Section: Shih-haomentioning

confidence: 99%

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System

et al. 2023

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The calcium looping process has become a promising technology for reducing carbon dioxide emissions because of its lower energy consumption compared with other methods. A three‐dimensional multifluid model based on the kinetic theory was employed to study the movement of granules in the calciner. The results demonstrated that an increase in the rotation speed and inclination angle of the calciner led to a decrease in the residence time of the particles. Simultaneously, the probability of the particles being heated was reduced. Insufficiently calcined particles reduce the carbon capture capacity in the next cycle; therefore, suitable operating conditions and mechanism designs are very important.

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Section: Shih-haomentioning

confidence: 99%

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System

et al. 2023

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“…This cluster spans a large area that covers technology related to carbon capture and sequestration (CCS). Duhoux et al, [ 34 ] for example, calculated the optimal pressure and flowrate of a pressurized fluidized bed combustion that sequestrates carbon dioxide via Calcium looping. Joule has published the most cited article since 2019 (101 citations) that describes a plant to capture 1 Mt CO 2 per year with aqueous KOH sorbent and a calcium caustic recovery loop.…”

Section: Applicationsmentioning

confidence: 99%

Experimental methods in chemical engineering: Process simulation

et al. 2020

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Process simulation software designs equipment, simulates operations, optimizes a plant's configuration (heat exchangers network, for example), estimates operating and capital expenses, and serves as an educational tool. However, mastering the theoretical background minimizes common mistakes such as applying an incorrect thermodynamic method, selecting improper algorithms in the case of tear systems, and setting irrational system specifications. Engineers and researchers will exploit this tool more often in the future as constant advancements in simulation science as well as new models are released continually. Process simulators make it easier to build digital twins and thus will facilitate the implementation of the industry 4.0 guidelines. We highlight the mathematical and technical features of process simulators, as well as the capabilities and the fields of application. A bibliometric map of keywords from articles citing Aspen+, Aspen plus, Hysys, and Pro/II indexed by Web of Science between 2017 and 2020 identified the main research clusters, such as design, optimization, energy or exergy, biomass; H 2 and CO 2 capture, thermodynamics; and separations and techno-economic analysis.

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Impact fragmentation of limestone-based sorbents for calcium looping: The effect of steam and sulphur dioxide

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Montagnaro

Scala

et al. 2020

Fuel Processing Technology

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Simulation of a calcium looping CO₂ capture process for pressurized fluidized bed combustion

Cited by 5 publications

References 23 publications

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System

Experimental methods in chemical engineering: Process simulation

Impact fragmentation of limestone-based sorbents for calcium looping: The effect of steam and sulphur dioxide

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Simulation of a calcium looping CO2 capture process for pressurized fluidized bed combustion

Cited by 5 publications

References 23 publications

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO2 Capture System

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO2 Capture System

Experimental methods in chemical engineering: Process simulation

Impact fragmentation of limestone-based sorbents for calcium looping: The effect of steam and sulphur dioxide

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Product

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Simulation of a calcium looping CO₂ capture process for pressurized fluidized bed combustion

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System

Numerical Study on the Granular Flow and Heat Transfer of a Calcium Looping CO₂ Capture System