Perovskite ceramics and recent experimental progress in reactor design for chemical looping combustion application

Rad, M. Hamedi; Imanieh, M.; Nadarajah, Arunan

doi:10.1515/chempap-2015-0072

Cited by 5 publications

(4 citation statements)

References 102 publications

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“…Romos et al 63 depicted two primary strategies for tuning the oxygen vacancy formation energy by composition for lowtemperature thermochemical cycles, including the partial substitution of a divalent atom (e.g., Sr) at the A site and transition metals (e.g., Fe, Mn, and Co) at the B site. The development of perovskites was reviewed by Tang et al 159 for methane-based chemical looping reforming, Steinfeld et al 75 for solar thermochemical redox cycles, Mina et al 164 for CLC application, Thursfield et al 165 for chemical looping processes, etc.…”

Section: Solar Hybridization Energy System With Clcmentioning

confidence: 99%

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

et al. 2020

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A power system with chemical looping combustion (CLC) has been an effective method to realize efficient energy conversion and CO 2 capture with zero energy penalty. Over the past 30 years, CLC power systems have been developed rapidly. Studies on the development of CLC power systems at the Chinese Academy of Sciences (CAS) have enlightened and broadened the application of CLC from the standpoint of the systematic integration of CLC with thermal cycles, life cycle assessment, reactors, and oxygen carrier materials. In this paper, the development of CLC power systems at CAS is comprehensively reviewed. First, the principle of cascade utilization of chemical energy of CLC was depicted. Second, the developed thermal cycles, their integration performance with CLC, and the life cycle assessment of typical CLC power systems were presented. Moreover, the CLC reactors and their kinetics were reviewed as well as the reactivity of oxygen carriers. Besides, fossil -fuel-based CLC power systems hybridized by solar energy were systematically reviewed and appraised. Finally, we try to present the future perspectives for the sustainable development of the CLC energy system. This paper would be expected to provide scientific insights and helpful clues for understanding the principle of CLC power systems and show step-change approaches to high-efficiency, clean, and low-carbonenergy systems with CLC utilization.

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Section: Solar Hybridization Energy System With Clcmentioning

confidence: 99%

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

et al. 2020

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“…The rotating reactor aims to intensify the process by providing a more compact configuration that eliminates the need for separation between solids and gases . A drawback of the reactor configuration proposed by Zhao and co-workers , is the requirement of an immobilized solid looping material, e.g., by coating it onto a porous substrate, which may pose restrictions with respect to the application of solid looping materials.…”

Section: Chemical Loopingmentioning

confidence: 99%

“…181,182 need for separation between solids and gases. 274 A drawback of the reactor configuration proposed by Zhao and co-workers 251,252 is the requirement of an immobilized solid looping material, e.g., by coating it onto a porous substrate, which may pose restrictions with respect to the application of solid looping materials. Moreover, temperature fluctuations in different reactor zones may cause significant stress levels on the reactor system by position-dependent expansion.…”

mentioning

confidence: 99%

110th Anniversary: Carbon Dioxide and Chemical Looping: Current Research Trends

Buelens

Poelman

Marin

et al. 2019

Ind. Eng. Chem. Res.

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Driven by the need to develop technologies for converting CO 2 , an extraordinary array of chemical looping based process concepts has been proposed and researched over the past 15 years. This review aims at providing first a historical context of the molecule CO 2 , which sits at the center of these developments. Then, different types of chemical looping related to CO 2 are addressed, with attention to process concepts, looping materials, and reactor configurations. Herein, focus lies on the direct conversion of carbon dioxide into carbon monoxide, a process deemed to have economic potential.

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“…Furthermore, materials must be of low cost and low toxicity . From expensive nickel oxide to low‐costing ores, several hundreds of materials based on Ni, Cu, Fe, Mn, Co, and mixtures of these materials have been studied as potential OCMs for CLC . Lately, there has been significant interest in mixed transition‐metal oxides and complex perovskite‐type oxides, especially those derived from the calcium manganite CaMnO 3− δ family.…”

Section: Introductionmentioning

confidence: 99%

Microstructural Stability of Tailored CaMn_0.875−xFe_xTi_0.125O_3−δ Perovskite Oxygen Carrier Materials for Chemical Looping Combustion

et al. 2017

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CaMn1−xTixO3−δ are state‐of‐the‐art perovskite‐type oxygen‐carrier materials (OCMs) used in gaseous fluidized‐bed chemical looping combustion (CLC), which is currently undergoing upscaling and demo campaigns in several large pilot plants around the world. CLC requires control of oxygen release and uptake by the oxygen‐carrier material. The flexibility of the perovskite's structure allows a wide range of substitutions, which can be beneficial for tuning the properties. In this study, we investigate the beneficial effect of iron substitution on the microstructural stability of tailored CaMn0.875−xFexTi0.125O3−δ perovskite oxygen carrier materials for chemical looping combustion. The redox performances of the substituted compounds under different reducing atmospheres are discussed. During operation in a fixed‐bed reactor, methane conversion occurred without any soot formation. It was demonstrated that iron substitution improved the spontaneous release of oxygen and the oxygen‐transfer capacity of the material for moderate iron substitution close to x=0.15. Iron substitution also effectively limited the degradation of the microstructure of the particles during redox cycling.

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Perovskite ceramics and recent experimental progress in reactor design for chemical looping combustion application

Cited by 5 publications

References 102 publications

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

110th Anniversary: Carbon Dioxide and Chemical Looping: Current Research Trends

Microstructural Stability of Tailored CaMn_0.875−xFe_xTi_0.125O_3−δ Perovskite Oxygen Carrier Materials for Chemical Looping Combustion

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Perovskite ceramics and recent experimental progress in reactor design for chemical looping combustion application

Cited by 5 publications

References 102 publications

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences

110th Anniversary: Carbon Dioxide and Chemical Looping: Current Research Trends

Microstructural Stability of Tailored CaMn0.875−xFexTi0.125O3−δ Perovskite Oxygen Carrier Materials for Chemical Looping Combustion

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Microstructural Stability of Tailored CaMn_0.875−xFe_xTi_0.125O_3−δ Perovskite Oxygen Carrier Materials for Chemical Looping Combustion