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Combustion Science and Technology Volume 184, 2012 - Issue 7-8: Seventh Mediterranean Combustion Symposium
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Original Articles

Attrition of Limestone During Fluidized Bed Calcium Looping Cycles for CO2 Capture

Antonio Coppola Dipartimento di Ingegneria Chimica, Università degli Studi di Napoli Federico II, Napoli, Italy
,
Fabio Montagnaro Dipartimento di Scienze Chimiche, Università degli Studi di Napoli Federico II, Napoli, Italy
,
Piero Salatino Dipartimento di Ingegneria Chimica, Università degli Studi di Napoli Federico II, Napoli, Italy
&
Fabrizio Scala Istituto di Ricerche sulla Combustione, CNR, Napoli, ItalyCorrespondence[email protected]
Pages 929-941 | Received 16 May 2011, Accepted 01 Feb 2012, Published online: 03 Aug 2012

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Palash Panja, Tyrell Xavier Pack & Milind Deo. (2021) Operational optimization of absorption column in capturing CO2 from flue gas in coal-fired power plant. Chemical Engineering Communications 208:9, pages 1344-1357.
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Meysam Mirarab, Maysam Sharifi, Bahman Behzadi & Mohammad Ali Ghayyem. (2015) Intelligent Prediction of CO2 Capture in Propyl Amine Methyl Imidazole Alanine Ionic Liquid: An Artificial Neural Network Model. Separation Science and Technology 50:1, pages 26-37.
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Articles from other publishers (40)

Artur Bieniek, Shuzhuang Sun, Wojciech Jerzak, Chunfei Wu & Aneta Magdziarz. (2023) Thermodynamic modelling of integrated carbon capture and utilisation process with CaO-based sorbents in a fixed-bed reactor. Journal of Environmental Management 343, pages 118201.
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Wenxin Zhao, Fangqin Cheng, Yuanyuan Zhang, Peizhen Zhao & Fengling Yang. (2023) Particle evolution mechanism of wide size distribution limestone under fluidized bed combustion conditions. Fuel 349, pages 128681.
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Yi Fang, Yingjie Li, Yehui Dou, Zirui He & Jianli Zhao. (2022) Effect of steam on heat storage and attrition performance of limestone under fluidization during CaO/CaCO 3 heat storage cycles . Reaction Chemistry & Engineering 7:10, pages 2093-2106.
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Nader Mahinpey, Seyed Mojtaba Hashemi, S. Toufigh Bararpour & Davood Karami. 2022. Carbon Dioxide Capture and Conversion. Carbon Dioxide Capture and Conversion 163 199 .
Miao Miao, Xuan Yao, Shuangming Zhang, Xiaoguo Jiang, Shuai Ren, Hairui Yang & Man Zhang. (2021) Attrition performance and morphology of limestone under different conditions in fluidized bed. Fuel Processing Technology 221, pages 106939.
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Wan Zhang, Yingjie Li, Yuqi Qian, Boyu Li, Jianli Zhao & Zeyan Wang. (2021) NO removal performance of CO in carbonation stage of calcium looping for CO2 capture. Chinese Journal of Chemical Engineering 37, pages 30-38.
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Dongfang Li, Xiwei Ke, Minwoo Kim, Runxia Cai, Hairui Yang, Man Zhang & Chung-hwan Jeon. (2021) Attrition and product layer development of limestone during simultaneous calcination and sulfation in a fluidized bed reactor. Fuel 293, pages 120280.
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Francesco Miccio, Annalisa Natali Murri, Valentina Medri & Elena Landi. (2019) Utilization of Fireclay for Preventing Fluidized-Bed Agglomeration during Biomass Thermochemical Processing. Industrial & Engineering Chemistry Research 58:51, pages 23498-23507.
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Xianyao Yan, Yingjie Li, Xiaotong Ma, Jianli Zhao, Zeyan Wang & Hantao Liu. (2019) CO 2 capture by a novel CaO/MgO sorbent fabricated from industrial waste and dolomite under calcium looping conditions . New Journal of Chemistry 43:13, pages 5116-5125.
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Shakirudeen A. Salaudeen, Syeda H. Tasnim, Mohammad Heidari, Bishnu Acharya & Animesh Dutta. (2018) Eggshell as a potential CO2 sorbent in the calcium looping gasification of biomass. Waste Management 80, pages 274-284.
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María Erans, Michal Jeremias, Liya Zheng, Joseph G. Yao, John Blamey, Vasilije Manovic, Paul S. Fennell & Edward J. Anthony. (2018) Pilot testing of enhanced sorbents for calcium looping with cement production. Applied Energy 225, pages 392-401.
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Jong-Ho Moon, Dong-Ho Lee, Ho-Jung Ryu, Young Cheol Park, Sung-Ho Jo, Gyoung Tae Jin, Jong-Seop Lee & Byoung-Moo Min. (2018) High-Temperature and High-Pressure Particle Attrition Characteristics of Dry Sorbents for Pre-Combustion CO<sub>2</sub> Capture by a Gas Jet in a Bubbling Fluidized Bed. JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 51:8, pages 664-674.
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Mónica Alonso, Borja Arias, José Ramón Fernández, Olivier Bughin & Carlos Abanades. (2018) Measuring attrition properties of calcium looping materials in a 30 kW pilot plant. Powder Technology 336, pages 273-281.
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Peter T. Clough, Gianluca Greco, Maria Erans, Antonio Coppola, Fabio Montagnaro & Edward J. Anthony. (2018) The extent of sorbent attrition and degradation of ethanol-treated CaO sorbents for CO2 capture within a fluidised bed reactor. Fuel Processing Technology 171, pages 198-204.
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Shakirudeen A. Salaudeen, Bishnu Acharya & Animesh Dutta. (2018) CaO-based CO2 sorbents: A review on screening, enhancement, cyclic stability, regeneration and kinetics modelling. Journal of CO2 Utilization 23, pages 179-199.
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Yaming Fan, Joseph G. Yao, Zili Zhang, Mark Sceats, Yuqun Zhuo, Liangliang Li, Geoffrey C. Maitland & Paul S. Fennell. (2018) Pressurized calcium looping in the presence of steam in a spout-fluidized-bed reactor with DFT analysis. Fuel Processing Technology 169, pages 24-41.
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María Erans, Francesca Cerciello, Antonio Coppola, Osvalda Senneca, Fabrizio Scala, Vasilije Manovic & Edward J. Anthony. (2017) Fragmentation of biomass-templated CaO-based pellets. Fuel 187, pages 388-397.
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Wai Lip Theo, Jeng Shiun Lim, Haslenda Hashim, Azizul Azri Mustaffa & Wai Shin Ho. (2016) Review of pre-combustion capture and ionic liquid in carbon capture and storage. Applied Energy 183, pages 1633-1663.
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María Erans, Vasilije Manovic & Edward J. Anthony. (2016) Calcium looping sorbents for CO2 capture. Applied Energy 180, pages 722-742.
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Wan Zhang, Yingjie Li, Lunbo Duan, Xiaotong Ma, Zeyan Wang & Chunmei Lu. (2016) Attrition behavior of calcium-based waste during CO2 capture cycles using calcium looping in a fluidized bed reactor. Chemical Engineering Research and Design 109, pages 806-815.
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Weiwei Peng, Zuwei Xu & Haibo Zhao. (2016) Batch fluidized bed test of SATS-derived CaO/TiO2?Al2O3 sorbent for calcium looping. Fuel 170, pages 226-234.
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P. Asiedu-Boateng, R. Legros & G.S. Patience. (2016) Attrition resistance of calcium oxide?copper oxide?cement sorbents for post-combustion carbon dioxide capture. Advanced Powder Technology 27:2, pages 786-795.
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John Blamey, Mohamad J. Al-Jeboori, Vasilije Manovic, Paul S. Fennell & Edward J. Anthony. (2016) CO2 capture by calcium aluminate pellets in a small fluidized bed. Fuel Processing Technology 142, pages 100-106.
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Weiwei Peng, Zuwei Xu & Haibo Zhao. 2016. Clean Coal Technology and Sustainable Development. Clean Coal Technology and Sustainable Development 341 346 .
Jingai Hao, Yinfeng Zhao, Mao Ye & Zhongmin Liu. (2015) Attrition of methanol to olefins catalyst with high-velocity air jets at elevated temperature. Advanced Powder Technology 26:3, pages 734-741.
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Glykeria Duelli (Varela)Ajay R. Bidwe, Ioannis Papandreou, Heiko Dieter & Günter Scheffknecht. (2015) Characterization of the oxy-fired regenerator at a 10 kWth dual fluidized bed calcium looping facility. Applied Thermal Engineering 74, pages 54-60.
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J. Blamey, J.G. Yao, Y. Arai & P. Fennell. 2015. Calcium and Chemical Looping Technology for Power Generation and Carbon Dioxide (CO2) Capture. Calcium and Chemical Looping Technology for Power Generation and Carbon Dioxide (CO2) Capture 73 105 .
Heiko Dieter, Ajay R. Bidwe, Glykeria Varela-Duelli, Alexander Charitos, Craig Hawthorne & G?nter Scheffknecht. (2014) Development of the calcium looping CO2 capture technology from lab to pilot scale at IFK, University of Stuttgart. Fuel 127, pages 23-37.
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Antonio Coppola, Piero Salatino, Fabio Montagnaro & Fabrizio Scala. (2014) Reactivation by water hydration of the CO2 capture capacity of a calcium looping sorbent. Fuel 127, pages 109-115.
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Antonio Coppola, Piero Salatino, Fabio Montagnaro & Fabrizio Scala. (2014) Hydration-induced reactivation of spent sorbents for fluidized bed calcium looping (double looping). Fuel Processing Technology 120, pages 71-78.
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Saima Sultana Kazi, Asunción Aranda, Julien Meyer & Johann Mastin. (2014) High performance CaO-based sorbents for pre- and post- combustion CO2 capture at high temperature. Energy Procedia 63, pages 2207-2215.
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Huichao Chen, Changsui Zhao & Yanmei Yang. (2013) Enhancement of attrition resistance and cyclic CO2 capture of calcium-based sorbent pellets. Fuel Processing Technology 116, pages 116-122.
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Antonio Coppola, Fabrizio Scala, Grigorios Itskos, Panagiotis Grammelis, Halina Pawlak-Kruczek, Stelios K. Antiohos, Piero Salatino & Fabio Montagnaro. (2013) Performance of Natural Sorbents during Calcium Looping Cycles: A Comparison between Fluidized Bed and Thermo-Gravimetric Tests. Energy & Fuels 27:10, pages 6048-6054.
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Antonio Coppola, Fabrizio Scala, Piero Salatino & Fabio Montagnaro. (2013) Fluidized bed calcium looping cycles for CO2 capture under oxy-firing calcination conditions: Part 1. Assessment of six limestones. Chemical Engineering Journal 231, pages 537-543.
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Grigorios Itskos, Panagiotis Grammelis, Fabrizio Scala, Halina Pawlak-Kruczek, Antonio Coppola, Piero Salatino & Emmanuel Kakaras. (2013) A comparative characterization study of Ca-looping natural sorbents. Applied Energy 108, pages 373-382.
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M. Elena Diego, Borja Arias, M?nica Alonso & J. Carlos Abanades. (2013) The impact of calcium sulfate and inert solids accumulation in post-combustion calcium looping systems. Fuel 109, pages 184-190.
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J.C. Abanades. 2013. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification 931 970 .
F. Scala, R. Solimene & F. Montagnaro. 2013. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification 319 387 .
F. Scala, R. Chirone & P. Salatino. 2013. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification. Fluidized Bed Technologies for Near-Zero Emission Combustion and Gasification 254 315 .
Antonio Coppola, Fabio Montagnaro, Piero Salatino & Fabrizio Scala. (2012) Fluidized bed calcium looping: The effect of SO 2 on sorbent attrition and CO 2 capture capacity. Chemical Engineering Journal 207-208, pages 445-449.
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