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Combustion Science and Technology Volume 176, 2004 - Issue 11
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Original Articles

THERMAL REACTION MODELING OF A LARGE MUNICIPAL SOLID WASTE INCINERATOR

C. RYU Sheffield University Waste Incineration Centre, Department of Chemical and Process Engineering, Sheffield University, Sheffield, United Kingdom
,
Y. B. YANG Sheffield University Waste Incineration Centre, Department of Chemical and Process Engineering, Sheffield University, Sheffield, United Kingdom
,
V. NASSERZADEH Sheffield University Waste Incineration Centre, Department of Chemical and Process Engineering, Sheffield University, Sheffield, United Kingdom
&
J. SWITHENBANK Sheffield University Waste Incineration Centre, Department of Chemical and Process Engineering, Sheffield University, Sheffield, United Kingdom
Pages 1891-1907 | Received 01 Nov 2003, Accepted 01 Mar 2004, Published online: 11 Aug 2010

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C. D. Goddard, Y. B. Yang, J. Goodfellow, V. N. Sharifi, J. Swithenbank, J. Chartier, D. Mouquet, R. Kirkman, D. Barlow & S. Moseley. (2005) Optimisation study of a large waste-to-energy plant using computational modelling and experimental measurements. Journal of the Energy Institute 78:3, pages 106-116.
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Articles from other publishers (42)

Wuqing Zeng, Yu Wang, Qingguo Bu, Shuo Ma, Haoran Hu, Dandan Ma & Hongting Ma. (2024) Influence of main operating parameters on the incineration characteristics of municipal solid waste (MSW). Process Safety and Environmental Protection 185, pages 325-339.
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Jiakun Chen, Jian Tang, Heng Xia, Tianzheng Wang & Bingyin Gao. (2023) A Non-Manipulated Variable Analysis of Solid-Phase Combustion in the Furnace of Municipal Solid-Waste Incineration Process Based on the Biorthogonal Numerical-Simulation Experiment. Sustainability 15:19, pages 14159.
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Tianzheng Wang, Jian Tang & Heng Xia. (2023) Multiple Input Mulitple Output Control Method Based on Single Neuron Adaptive PID for Municipal Solid Waste Incineration Process. Multiple Input Mulitple Output Control Method Based on Single Neuron Adaptive PID for Municipal Solid Waste Incineration Process.
Quynh N. Hoang, Jo Van Caneghem, Tom Croymans, Rudi Pittoors & Maarten Vanierschot. (2022) A novel comprehensive CFD-based model for municipal solid waste incinerators based on the porous medium approach. Fuel 326, pages 124963.
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Jiabin Zhuang, Jian Tang & Loai Aljerf. (2022) Comprehensive review on mechanism analysis and numerical simulation of municipal solid waste incineration process based on mechanical grate. Fuel 320, pages 123826.
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Quynh N. Hoang, Maarten Vanierschot, Julien Blondeau, Tom Croymans, Rudi Pittoors & Jo Van Caneghem. (2021) Review of numerical studies on thermal treatment of municipal solid waste in packed bed combustion. Fuel Communications 7, pages 100013.
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Mohsen Saffari Pour, Ali Hakkaki-Fard & Bahar Firoozabadi. (2020) Numerical Investigation of a Portable Incinerator: A Parametric Study. Processes 8:8, pages 923.
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Md Rezwanul Karim, Arafat Ahmed Bhuiyan, Abd Alhamid Rafea Sarhan & Jamal Naser. (2020) CFD simulation of biomass thermal conversion under air/oxy-fuel conditions in a reciprocating grate boiler. Renewable Energy 146, pages 1416-1428.
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Franco Cotana, Sabrina Vittori, Guido Marseglia, Carlo Maria Medaglia, Valentina Coccia, Alessandro Petrozzi, Andrea Nicolini & Gianluca Cavalaglio. (2019) Pollutant emissions of a biomass gasifier inside a multifuel energy plant. Atmospheric Pollution Research 10:6, pages 2000-2009.
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Mohammad Hosseini Rahdar, Fuzhan Nasiri & Bruno Lee. (2019) A Review of Numerical Modeling and Experimental Analysis of Combustion in Moving Grate Biomass Combustors. Energy & Fuels 33:10, pages 9367-9402.
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Adrian Chun Hin Lai & Adrian Wing-Keung Law. (2019) Numerical modeling of municipal waste bed incineration. International Journal of Numerical Methods for Heat & Fluid Flow 29:2, pages 504-522.
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Chungen Yin. 2019. New Trends in Coal Conversion. New Trends in Coal Conversion 89 116 .
Francisco Rojas-Perez, Jose A. Castillo-Benavides, Gustavo Richmond-Navarro & Esteban Zamora. (2018) CFD Modeling of Plasma Gasification Reactor for Municipal Solid Waste. IEEE Transactions on Plasma Science 46:7, pages 2435-2444.
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Md. Rezwanul Karim & Jamal Naser. (2018) CFD modelling of combustion and associated emission of wet woody biomass in a 4 MW moving grate boiler. Fuel 222, pages 656-674.
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Morten Søe Jepsen, Peter Arendt Jensen, Sønnik Clausen, Alexander Fateev, Peter Glarborg & Thomas Norman. (2018) Measurements of the NOx precursors and major species concentrations above the grate at a waste-to-energy plant. Fuel 222, pages 475-484.
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Md. Rezwanul Karim, Arafat A. Bhuiyan & Jamal Naser. (2018) Effect of recycled flue gas ratios for pellet type biomass combustion in a packed bed furnace. International Journal of Heat and Mass Transfer 120, pages 1031-1043.
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Jiachen Xu, Yanfen Liao, Zhaosheng Yu, Zilin Cai, Xiaoqian Ma, Minquan Dai & Shiwen Fang. (2018) Co-combustion of paper sludge in a 750 t/d waste incinerator and effect of sludge moisture content: A simulation study. Fuel 217, pages 617-625.
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Md. Rezwanul Karim & Jamal Naser. (2018) Numerical study of the ignition front propagation of different pelletised biomass in a packed bed furnace. Applied Thermal Engineering 128, pages 772-784.
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Stefano Cordiner, Alessandro Manni, Vincenzo Mulone & Vittorio Rocco. (2016) Biomass furnace study via 3D numerical modeling. International Journal of Numerical Methods for Heat & Fluid Flow 26:2, pages 515-533.
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Arafat A. Bhuiyan, Md. Rezwanul Karim & Jamal Naser. 2016. Thermofluid Modeling for Energy Efficiency Applications. Thermofluid Modeling for Energy Efficiency Applications 259 309 .
Rafał Buczyński, Roman Weber & Andrzej Szlęk. (2015) Innovative design solutions for small-scale domestic boilers: Combustion improvements using a CFD-based mathematical model. Journal of the Energy Institute 88:1, pages 53-63.
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Zihong Xia, Jian Li, Tingting Wu, Caixia Chen & Xiaoke Zhang. (2014) CFD simulation of MSW combustion and SNCR in a commercial incinerator. Waste Management 34:9, pages 1609-1618.
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T.M. Ismail, M. Abd El-Salam, M.A. El-Kady & S.M. El-Haggar. (2014) Three dimensional model of transport and chemical late phenomena on a MSW incinerator. International Journal of Thermal Sciences 77, pages 139-157.
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J. Collazo, J. Porteiro, J.L. Míguez, E. Granada & M.A. Gómez. (2012) Numerical simulation of a small-scale biomass boiler. Energy Conversion and Management 64, pages 87-96.
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J. Collazo, J. Porteiro, D. Patiño & E. Granada. (2012) Numerical modeling of the combustion of densified wood under fixed-bed conditions. Fuel 93, pages 149-159.
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Awassada Phongphiphat, Changkook Ryu, Yao Bin Yang, Karen N. Finney, Adrian Leyland, Vida N. Sharifi & Jim Swithenbank. (2010) Investigation into high-temperature corrosion in a large-scale municipal waste-to-energy plant. Corrosion Science 52:12, pages 3861-3874.
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Xiaohui Zhang, Qun Chen, Richard Bradford, Vida Sharifi & Jim Swithenbank. (2010) Experimental investigation and mathematical modelling of wood combustion in a moving grate boiler. Fuel Processing Technology 91:11, pages 1491-1499.
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Qun ChenXiaohui ZhangDick BradfordVida SharifiJim Swithenbank. (2010) Comparison of Emission Characteristics of Small-Scale Heating Systems Using Biomass Instead of Coal. Energy & Fuels 24:8, pages 4255-4265.
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Abhishek Asthana, Yannick Ménard, Philippe Sessiecq & Fabrice Patisson. (2010) Modeling On-Grate MSW Incineration with Experimental Validation in a Batch Incinerator. Industrial & Engineering Chemistry Research 49:16, pages 7597-7604.
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Zhaosheng Yu, Xiaoqian Ma & Yanfen Liao. (2010) Mathematical modeling of combustion in a grate-fired boiler burning straw and effect of operating conditions under air- and oxygen-enriched atmospheres. Renewable Energy 35:5, pages 895-903.
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C. Ryu, Y. B. Yang, P. Gilbert, W. Chung, A. N. Phan, A. K. Le, A. Khor, Q. Chen, V. N. Sharifi & J. Swithenbank. (2009) Waste segregation presents thermal treatment opportunities. Proceedings of the Institution of Civil Engineers - Waste and Resource Management 162:1, pages 45-59.
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Chungen Yin, Lasse A. Rosendahl & Søren K. Kær. (2008) Grate-firing of biomass for heat and power production. Progress in Energy and Combustion Science 34:6, pages 725-754.
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Chih-Lun Hsi & Jing-T. Kuo. (2008) Estimation of fuel burning rate and heating value with highly variable properties for optimum combustion control. Biomass and Bioenergy 32:12, pages 1255-1262.
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Chungen Yin, Lasse Rosendahl, Søren K. Kær, Sønnik Clausen, Søren L. Hvid & Torben Hille. (2008) Mathematical Modeling and Experimental Study of Biomass Combustion in a Thermal 108 MW Grate-Fired Boiler. Energy & Fuels 22:2, pages 1380-1390.
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Changkook Ryu, Anh N Phan, Vida N Sharifi & Jim Swithenbank. (2007) Co-combustion of textile residues with cardboard and waste wood in a packed bed. Experimental Thermal and Fluid Science 32:2, pages 450-458.
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Won Yang, Hyung-sik Nam & Sangmin Choi. (2007) Improvement of operating conditions in waste incinerators using engineering tools. Waste Management 27:5, pages 604-613.
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Changkook Ryu, Anh N. Phan, Yao-bin Yang, Vida N. Sharifi & Jim Swithenbank. (2007) Ignition and burning rates of segregated waste combustion in packed beds. Waste Management 27:6, pages 802-810.
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Yao Bin Yang, Vida N. Sharifi & Jim Swithenbank. (2007) Converting moving-grate incineration from combustion to gasification – Numerical simulation of the burning characteristics. Waste Management 27:5, pages 645-655.
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Yao Bin Yang, Robert Newman, Vida Sharifi, Jim Swithenbank & John Ariss. (2007) Mathematical modelling of straw combustion in a 38MWe power plant furnace and effect of operating conditions. Fuel 86:1-2, pages 129-142.
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Zhao Sheng Yu, Xiao Qian Ma & Guo Hui Liu. 2007. Challenges of Power Engineering and Environment. Challenges of Power Engineering and Environment 1167 1172 .
Weihong Yang, Anna Ponzio, Carlos Lucas & Wlodzimierz Blasiak. (2006) Performance analysis of a fixed-bed biomass gasifier using high-temperature air. Fuel Processing Technology 87:3, pages 235-245.
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Quynh N. Hoang, Jo Van Caneghem, Tom Croymans, Rudi Pittoors & Maarten Vanierschot. (2022) A Novel Comprehensive Cfd-Based Model For Municipal Solid Waste Incinerators Based on the Porous Medium Approach. SSRN Electronic Journal.
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