Recent Advances and Development of Various Oxygen Carriers for the Chemical Looping Combustion Process: A Review

Qasim, Muhammad; Ayoub, Muhammad; Ghazali, Nur Adibah; Aqsha, Aqsha; Ameen, Mariam

doi:10.1021/acs.iecr.1c01111

Cited by 52 publications

(67 citation statements)

References 136 publications

(184 reference statements)

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“…Similarly, there are many publications that deal with the use of manganese ores as OC materials in CLC. In comparison to ilmenite, manganese ore achieved a significantly higher rate of fuel gasification and higher gas conversion, while fine production was higher. ,, High reactivity of manganese ores is often related to the catalytic effect of impurities (such as alkali particles) that causes cavitations in the solid char and improves char gasification rates as a consequence. , It should be noted that the alkali effect is not sustainable over multiple redox cycles because alkali can be lost with ash. For this reason, it is important to study the ore under long circulation periods at a pilot scale.…”

Section: Oc Performances: Ilmenite Versus Mn Oresmentioning

confidence: 99%

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

et al. 2022

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Chemical looping combustion (CLC) technology has emerged as one of the most important clean fossil fuel combustion technologies, because it allows for sequestration of CO2 with a minimal increase in energy requirements and fuel demand in comparison to traditional plants. In the framework of the Chinese–European Emission-Reducing Solutions project, the core technology of the CLC process is being developed in a 3 MWth system prototype for demonstration in an operational environment using petcoke as fuel. One of the main objectives is the selection of the oxygen carrier because it will impact the design and sizing of the demonstration unit as well as the nominal power of the unit. Two minerals, ilmenite T1 and LY Mn ore, with high potential for a well-performing oxygen carrier were tested in a 10 kWth continuous pilot unit. The collected fines were analyzed by scanning electron microscopy and X-ray fluorescence analysis to characterize the compositional and morphological evolution of the particles during operation. The performance of both oxygen carriers was compared with respect to solid fuel conversion, capacity for oxygen transfer, and particle lifetime in continuous circulation. A higher methane conversion can be obtained using ilmenite, while LY Mn is better at converting petcoke. Where the reduction potential of oxygen carriers is concerned, it was observed that LY Mn ore has a high initial R 0ΔX value (R 0ΔX = 0.8), which leads to a shorter activation period in comparison to ilmenite T1, which requires a longer activation period to reach its full potential. LY Mn ore is however more sensitive to attrition than ilmenite, under similar operating conditions, which is a critical characteristic for large-scale deployment. Finally, key operating parameters were identified for large-scale unit operation, including fuel reactor temperature, oxygen carrier flow rate, and fuel flow rate.

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Section: Oc Performances: Ilmenite Versus Mn Oresmentioning

confidence: 99%

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

et al. 2022

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“…The CL process builds upon the ability of an oxygen carrier (OC) to perform redox reactions in separate reactors or reaction stages 16 . Over numerous materials that have been studied as an oxygen carrier, Cu, Mn, Co, Ni, and Fe are the most feasible metals used for the CL process to date 27 . Several terms have been used to classify the CL process based on its particular objective, such as CL combustion 19;28;29;30 , CL gasification 31 , CL reforming 25;32;33 , CL air separation 34;35 , or based on how the oxygen is transferred such as chemical looping with oxygen uncoupling (CLOU) 23 .…”

Section: Introductionmentioning

confidence: 99%

“…), or for utilizing biomass material as feed 26 . The exploration of OC materials that have long lifetime, excellent reactivity, and lower cost, is still an area of interest in CL research 27 .…”

Section: Introductionmentioning

confidence: 99%

Intensified reactor for lean methane emissions treatment

Irhamna¹,

Bollas²

2022

Preprint

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The Global Methane Pledge declared at the 2021 United Nations climate change conference (COP26) marked the world’s commitment to eradicate methane emissions. Most of these emissions are generated by the oil-gas industry, waste landfills, and agriculture sectors, and are lean in composition. This work explores the use of an intensified reactor that implements the chemical looping principle to handle lean methane emissions. A model-based framework is used to showcase the baseline performance of the proposed reactor in converting methane emissions using nickel-based oxygen carriers. Then, sensitivity analysis of the reactor performance with respect to operating conditions is performed. The reactor is subsequently optimized to minimize the methane emitted, using a dynamic program with safety and operability constraints for the alternating redox process. With the optimal cycle strategy, we demonstrate that near-complete methane conversion can be achieved by the reactor without external heating.

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“…9 Reports have revealed that oxygen transfer capacity and oxygen transfer rate are the most critical factors in selecting OCs. 15,16 In general, synthetic OCs consist of single metal oxides (the widely used type is the first-row transition metal oxides), mixed metal oxides, and inert support oxides. Due to their low cost and strong mechanical strength, natural occurrences such as ilmenite, olivine, iron ore, and waste materials from the industry (bauxite waste, ash, etc.)…”

Section: Introductionmentioning

confidence: 99%

“…For the past 10 years, researchers have examined various kinds of OCs that are inexpensive, thermally stable, possess good oxygen transport capacity (OTC), thermally stable, have improved mechanical strength, and better gas selectivity with a low environmental effect . Reports have revealed that oxygen transfer capacity and oxygen transfer rate are the most critical factors in selecting OCs. , …”

Section: Introductionmentioning

confidence: 99%

Comparative Study on Ni/γ-Al₂O₃ Prepared via Ultrasonic Irradiation and Impregnation Approaches as an Oxygen Carrier in Chemical Looping Combustion

Ghazali

Aqsha

Komiyama

et al. 2021

Ind. Eng. Chem. Res.

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With the recent advancement of the chemical looping combustion (CLC) industry, the development of materials with high stability, high oxidation and reduction rate, and high oxygen transport capacity (OTC) has become a research hotspot. In this paper, the behavior of nickel oxide (NiO) as an oxygen carrier (OC) has been analyzed using thermogravimetric analysis. The influences of the preparation methods and Ni composition have been evaluated to develop Ni-based carriers with high reduction and oxidation rates over 10 redox cycles without changes in the chemical and structural properties. It has been observed that the carriers prepared by the ultrasound irradiation method showed excellent stability and higher reduction and oxidation rate (less than 1–3 min) during multiple redox cycles. However, their OTC values were lower than those of impregnated carriers. It was found that, in the ultrasound irradiation method, the 15NA (15 wt % Ni loading supported with gamma alumina) OC exhibited the highest OTC (3.17%) while 5NA (5 wt % nickel loading supported with gamma alumina) exhibited the lowest OTC (1.34%). A similar trend was observed for the impregnated OC, where 15NA exhibited the highest OTC value (3.67%), whereas 5NA exhibited the lowest OTC value (1.38%). Overall, the carriers prepared via the impregnation method possessed a high value of OTC at approximately 3.67% while the carriers prepared by ultrasound irradiation possessed an OTC value of 3.17%. In terms of physicochemical properties, the carriers prepared using the ultrasound irradiation approach possessed comparatively lower oxidation and reduction temperatures, smaller particle size, higher specific surface area, and more uniform metal distribution on the support. These findings suggested that the Ni-based OC prepared by ultrasound irradiation is a good candidate for CLC reactions.

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Recent Advances and Development of Various Oxygen Carriers for the Chemical Looping Combustion Process: A Review

Cited by 52 publications

References 136 publications

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

Intensified reactor for lean methane emissions treatment

Comparative Study on Ni/γ-Al₂O₃ Prepared via Ultrasonic Irradiation and Impregnation Approaches as an Oxygen Carrier in Chemical Looping Combustion

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Recent Advances and Development of Various Oxygen Carriers for the Chemical Looping Combustion Process: A Review

Cited by 52 publications

References 136 publications

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kWth Continuous Pilot Plant: A Performance Comparison

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kWth Continuous Pilot Plant: A Performance Comparison

Intensified reactor for lean methane emissions treatment

Comparative Study on Ni/γ-Al2O3 Prepared via Ultrasonic Irradiation and Impregnation Approaches as an Oxygen Carrier in Chemical Looping Combustion

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Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

Chemical Looping Combustion of Petcoke Using Two Natural Ores in a 10 kW_th Continuous Pilot Plant: A Performance Comparison

Comparative Study on Ni/γ-Al₂O₃ Prepared via Ultrasonic Irradiation and Impregnation Approaches as an Oxygen Carrier in Chemical Looping Combustion