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Combustion Science and Technology Volume 2, 1970 - Issue 1
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Original Articles

On the Combustion of Wood II: The Influence of Internal Convection on the Transient Pyrolysis of Cellulose

A. MURTY KANURY Factory Mutual Research Corporation, Norwood, Mass
&
PERRY L. BLACKSHEAR JR. Department of Mechanical Engineering, University of Minnesota, Minneapolis, Minnesota
Pages 5-9 | Received 02 Feb 1970, Published online: 10 May 2007

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J.T. KUO. (1998) Estimation of Burning Rates in Solid Waste Combustion Furnaces. Combustion Science and Technology 137:1-6, pages 1-29.
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HUBERTB. CLEMENTS & ALEX ALKIDAS. (1973) Combustion of Wood in Methanol Flames. Combustion Science and Technology 7:1, pages 13-18.
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A. MURTY KANURY. (1972) Rate of Burning of Wood (A Simple Thermal Model). Combustion Science and Technology 5:1, pages 135-146.
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Articles from other publishers (19)

Richard Kowk Kit Yuen, R. T. Casey, Graham de Vahl Davis, Eddie Leonardi, Guan Heng Yeoh, V. Chandrasekaran & S.J. Grubits. (2023) Thermophysical Properties for a Three-dimensional Pyrolysis Model for Wood. Thermophysical Properties for a Three-dimensional Pyrolysis Model for Wood.
K. Y. Kwong & E. J. Marek. (2021) Combustion of Biomass in Fluidized Beds: A Review of Key Phenomena and Future Perspectives. Energy & Fuels 35:20, pages 16303-16334.
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Shruti Vikram, Pali Rosha & Sandeep Kumar. (2021) Recent Modeling Approaches to Biomass Pyrolysis: A Review. Energy & Fuels 35:9, pages 7406-7433.
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Peter N. Ciesielski, M. Brennan Pecha, Aaron M. Lattanzi, Vivek S. Bharadwaj, Meagan F. Crowley, Lintao Bu, Josh V. Vermaas, K. Xerxes Steirer & Michael F. Crowley. (2020) Advances in Multiscale Modeling of Lignocellulosic Biomass. ACS Sustainable Chemistry & Engineering 8:9, pages 3512-3531.
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M. Brennan Pecha, Jorge Ivan Montoya Arbelaez, Manuel Garcia-Perez, Farid Chejne & Peter N. Ciesielski. (2019) Progress in understanding the four dominant intra-particle phenomena of lignocellulose pyrolysis: chemical reactions, heat transfer, mass transfer, and phase change. Green Chemistry 21:11, pages 2868-2898.
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Peter N. Ciesielski, M. Brennan Pecha, Vivek S. Bharadwaj, Calvin Mukarakate, G. Jeremy Leong, Branden Kappes, Michael F. Crowley, Seonah Kim, Thomas D. Foust & Mark R. Nimlos. (2018) Advancing catalytic fast pyrolysis through integrated multiscale modeling and experimentation: Challenges, progress, and perspectives. WIREs Energy and Environment 7:4.
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Sandeep Kumar & S. Dasappa. (2017) Modeling and analysis of single particle conversion of biomass in a packed bed gasification system. Applied Thermal Engineering 112, pages 1382-1395.
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Abhishek Sharma, Vishnu Pareek & Dongke Zhang. (2015) Biomass pyrolysis—A review of modelling, process parameters and catalytic studies. Renewable and Sustainable Energy Reviews 50, pages 1081-1096.
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Qian Liu, Dekui Shen, Rui Xiao, Huiyan Zhang & Mengxiang Fang. (2013) A mathematical description of thermal decomposition and spontaneous ignition of wood slab under a truncated-cone heater. Korean Journal of Chemical Engineering 30:3, pages 613-619.
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. 2009. Computational Fluid Dynamics in Fire Engineering. Computational Fluid Dynamics in Fire Engineering 491 515 .
C.S. Bhaskar Dixit, P.J. Paul & H.S. Mukunda. (2006) Part II: Computational studies on a pulverised fuel stove. Biomass and Bioenergy 30:7, pages 684-691.
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Behdad Moghtaderi. (2005) The state‐of‐the‐art in pyrolysis modelling of lignocellulosic solid fuels. Fire and Materials 30:1, pages 1-34.
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E. N. Mac�do, R. M. Cotta & H. R. B. Orlande. (2000) A solution via generalised intergral transform technique for the simultaneous transport processes during combustion of wood cylinders. International Journal for Numerical Methods in Engineering 49:11, pages 1455-1477.
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Peter W. C. Lau & J. D. Barrett. (2004) Factors affecting reliability of light‐framing wood members exposed to fire—a critical review. Fire and Materials 18:6, pages 339-349.
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. 1986. Dynamics of Reactive Systems Part I: Flames and Configurations; Part II: Modeling and Heterogeneous Combustion. Dynamics of Reactive Systems Part I: Flames and Configurations; Part II: Modeling and Heterogeneous Combustion 208 232 .
. 1986. Dynamics of Reactive Systems Part I: Flames and Configurations; Part II: Modeling and Heterogeneous Combustion. Dynamics of Reactive Systems Part I: Flames and Configurations; Part II: Modeling and Heterogeneous Combustion.
H.S. Mukunda, P.J. Paul, U. Srinivasa & N.K.S. Rajan. (1985) Combustion of wooden spheres—Experiments and model analysis. Symposium (International) on Combustion 20:1, pages 1619-1628.
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H.A. Becker, A.M. Phillips & J. Keller. (1984) Pyrolysis of white pine. Combustion and Flame 58:2, pages 163-189.
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A. Murty Kanury. (1973) Rate of charring combustion in a fire. Symposium (International) on Combustion 14:1, pages 1131-1142.
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