Advanced search
Publication Cover
Combustion Science and Technology Volume 90, 1993 - Issue 5-6
Submit an article Journal homepage
360
Views
151
CrossRef citations to date
0
Altmetric
Original Articles

Analysis of Convection and Secondary Reaction Effects Within Porous Solid Fuels Undergoing Pyrolysis

COLOMBA DI BLASI Dipartimento di Ingegneria Chimica, Universita degli Studi di Napoli Federico II, Piazzale V. Tecchio, NAPOLI, 80125, Italy
Pages 315-340 | Received 02 Jan 1992, Accepted 28 Sep 1992, Published online: 27 Apr 2007

Citations (151)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (11)

Stavros Michailos. (2021) Kinetic modelling and dynamic sensitivity analysis of a fast pyrolysis fluidised bed reactor for bagasse exploitation. Biofuels 12:2, pages 161-170.
Read now
Indrek S. Wichman, Yen T. Nguyen & Thomas J. Pence. (2020) A model for crack formation during active solid pyrolysis of a char-forming solid: crack patterns; surface area generation; volatile mass efflux. Combustion Theory and Modelling 24:5, pages 903-925.
Read now
Feng Zhang & Yunfei Cheng. (2015) Experimental Study on Heat Transfer of Intumescent Fire Retardant Polypropylene Materials. Journal of Macromolecular Science, Part B 54:1, pages 112-125.
Read now
Feng Zhang, Yunfei Cheng, Wenting Wang & Yingying Sun. (2013) Modeling the Effect of Thermophysical Properties on Pyrolysis of Intumescent Fire-retardant Materials. Journal of Macromolecular Science, Part B 52:11, pages 1567-1577.
Read now
José Antonio Suárez, Pedro Anibal Beaton & Rolando Zanzi. (2006) A Phenomenological Energy Model of Biomass Pyrolysis Under Autothermal Fluidized Bed Conditions. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 28:8, pages 705-714.
Read now
U. Sand, J. Sandberg & R. Bel Fdhila. (2006) Two-Phase Transport Model for the Pyrolysis Process of a Vertical Wood Cylinder, Including the Surrounding Flow Field. International Journal of Green Energy 3:1, pages 63-78.
Read now
R. S. Miller & J. Bellan. (1997) Tar Yield and Collection from the Pyrolysis of Large Biomass Particles. Combustion Science and Technology 127:1-6, pages 97-118.
Read now
R.S. MILLER & J. BELLAN. (1997) A Generalized Biomass Pyrolysis Model Based on Superimposed Cellulose, Hemicelluloseand Liqnin Kinetics. Combustion Science and Technology 126:1-6, pages 97-137.
Read now
R. S. MILLER & J. BELLAN. (1996) Analysis of Reaction Products and Conversion Time in the Pyrolysis of Cellulose and Wood Particles. Combustion Science and Technology 119:1-6, pages 331-373.
Read now
M. C. Melaaen. (1996) NUMERICAL ANALYSIS OF HEAT AND MASS TRANSFER IN DRYING AND PYROLYSIS OF POROUS MEDIA. Numerical Heat Transfer, Part A: Applications 29:4, pages 331-355.
Read now
COLOMBA DI BLASI. (1995) Mechanisms of Two-Dimensional Smoldering Propagation Through Packed Fuel Beds. Combustion Science and Technology 106:1-3, pages 103-124.
Read now

Articles from other publishers (140)

Tien Duc Luu, Jingyuan Zhang, Jan W. Gärtner, Shiqi Meng, Andreas Kronenburg, Tian Li, Terese Løvås & Oliver T. Stein. (2024) Single particle conversion of woody biomass using fully-resolved and Euler–Lagrange coarse-graining approaches. Fuel 368, pages 131600.
Crossref
Gavin M. Wiggins, Oluwafemi A. Oyedeji & Zachary G. Mills. (2024) Modeling hydrodynamic and biomass pyrolysis effects of recycled product gases in a bubbling fluidized bed reactor. Biomass and Bioenergy 184, pages 107172.
Crossref
Ibiba Taiwo Horsfall, Macmanus Chinenye Ndukwu, Fidelis Abam, Merlin Simo-Tagne & Chris Chibuike Nwachukwu. (2022) Parametric studies of heat and mass transfer process for two-stage biochar production from poultry litter pellet biomass. Biomass Conversion and Biorefinery 14:7, pages 8591-8603.
Crossref
B.B. Rokhman & S.G. Kobzar. (2024) APPLICATIO STUDY ON KINETICS OF BIOMASS PYROLYSIS IN THE FIXED BED. 1. SIMULATION AND NUMERICAL ANALYSIS OF LIGNIN THERMAL DECOMPOSITION. Energy Technologies & Resource Saving 78:1, pages 84-94.
Crossref
Aysan Safavi, Christiaan Richter & Runar Unnthorsson. (2023) Revisiting the reaction scheme of slow pyrolysis of woody biomass. Energy 280, pages 128123.
Crossref
Wentao Ou, Tong Liu, Chen Wang, Rui Xiao & Dewang Zeng. (2023) DEM simulation of biomass pyrolysis in a novel interconnected screw reactor. International Journal of Chemical Reactor Engineering 21:8, pages 937-949.
Crossref
Jiuling Yang, Anthony Hamins, Laura Dubrulle & Mauro Zammarano. (2022) Experimental and computational study on the glowing ignition of wood. Fire and Materials 47:5, pages 638-650.
Crossref
Isaac T. Leventon, Jiuling Yang & Morgan C. Bruns. (2023) Thermal decomposition of vegetative fuels and the impact of measured variations on simulations of wildfire spread. Fire Safety Journal 137, pages 103762.
Crossref
Maurizio Troiano, Valeria Ianzito, Roberto Solimene, Elvis Tinashe Ganda & Piero Salatino. (2022) Modelling fast pyrolysis of biomass in a fluidized bed reactor. The Canadian Journal of Chemical Engineering 101:1, pages 110-120.
Crossref
Mario Sánchez, Juan C. Maya, Brennan Pecha, Farid Chejne & Adriana M. Quinchía-Figueroa. (2022) Effect of particle characteristics, kinetics and transport phenomena on the prediction of particle mass loss and products yields during biomass fast pyrolysis. Journal of Analytical and Applied Pyrolysis 168, pages 105786.
Crossref
Przemyslaw Maziarka, Andrés Anca-Couce, Wolter Prins & Frederik Ronsse. (2022) A meta-analysis of thermo-physical and chemical aspects in CFD modelling of pyrolysis of a single wood particle in the thermally thick regime. Chemical Engineering Journal 446, pages 137088.
Crossref
Maurizio Troiano, Valeria Ianzito, Roberto Solimene, Elvis Tinashe Ganda & Piero Salatino. (2022) Fluidized Bed Pyrolysis of Biomass: A Model-Based Assessment of the Relevance of Heterogeneous Secondary Reactions and Char Loading. Energy & Fuels 36:17, pages 9660-9671.
Crossref
Ross Houston, Oluwafemi Oyedeji & Nourredine Abdoulmoumine. (2022) Detailed biomass fast pyrolysis kinetics integrated to computational fluid dynamic (CFD) and discrete element modeling framework: Predicting product yields at the bench-scale. Chemical Engineering Journal 444, pages 136419.
Crossref
Ablain Tagne Tagne, Merlin Simo-Tagne, Razika Kharchi, Macmanus Chinenye Ndukwu, Nidhoim Assoumani, Aboubakar Compaoré, Lyes Bennamoun, Yann Rogaume & André Zoulalian. (2022) Numerical Study of the Pyrolysis of Wood Chips for Biocharcoal Production: Influence of Chips Geometry and Initial Moisture Content. Energies 15:11, pages 4098.
Crossref
T.T. Tran, V.-D. Thi, M. Oudjene, M. Khelifa, P. Girods, M. Debal, Y. Rogaume & Y. Jannot. (2022) Fire structural performance of thermo-mechanically compressed spruce timber by means experiments and a three-step multi-reactions pyrolysis 3D-finite element modelling. Construction and Building Materials 320, pages 126100.
Crossref
Guangjun Sun, Chuting Wang & Lu Wang. (2022) Study on the Fire Behavior of Sandwich Wall Panels with GFRP Skins and a Wood-Web Core. Journal of Renewable Materials 10:6, pages 1537-1553.
Crossref
Nidhoim Assoumani, Merlin Simo-Tagne, Fatima Kifani-Sahban, Ablain Tagne Tagne, Maryam El Marouani, Marcel Brice Obounou Akong, Yann Rogaume, Pierre Girods & André Zoulalian. (2021) Numerical Study of Cylindrical Tropical Woods Pyrolysis Using Python Tool. Sustainability 13:24, pages 13892.
Crossref
Ibiba Taiwo Horsfall, Macmanus Chinenye Ndukwu, Fidelis Ibiang Abam, Ololade Moses Olatunji, Ojong Elias Ojong & Keavey Osa-Aria. (2021) Validation of MATLAB algorithm to implement a two-step parallel pyrolysis model for the prediction of maximum %char yield. Discover Chemical Engineering 1:1.
Crossref
Antonio Agrifoglio, Alberto Fichera, Antonio Gagliano & Rosaria Volpe. (2021) Energy analysis of a micro-cogeneration unit fed by biogas as a function of pyrolysis operating parameters. Comptes Rendus. Chimie 24:S1, pages 39-55.
Crossref
Khursheed B. Ansari, Bushra Kamal, Sidra Beg, Md. Aquib Wakeel Khan, Mohd Shariq Khan, Mohammed K. Al Mesfer & Mohd. Danish. (2021) Recent developments in investigating reaction chemistry and transport effects in biomass fast pyrolysis: A review. Renewable and Sustainable Energy Reviews 150, pages 111454.
Crossref
Qiaoling Li, Quanxing Zheng, Xiaohua Deng, Zhiqiang Yu, Nan Deng, Fei Xing, Xin Chen, Guohua Cai, Chenlu Wang, Renqiang Yang, Pengfei Ma, Bin Li, Xiao Dong Chen & Hongxiang Zhong. (2020) Numerical Simulation of the Burning Process in a King-Size Cigarette Based on Experimentally Derived Reaction Kinetics. Contributions to Tobacco & Nicotine Research 29:3, pages 156-179.
Crossref
Zuzanna Kaczor, Zbigniew Buliński & Sebastian Werle. (2020) Modelling approaches to waste biomass pyrolysis: a review. Renewable Energy 159, pages 427-443.
Crossref
Mariam Fawaz, Chris Lautenberger & Tami C. Bond. (2020) Prediction of organic aerosol precursor emission from the pyrolysis of thermally thick wood. Fuel 269, pages 117333.
Crossref
Guoli Qi, Zhongwei Wang, Songsong Zhang, Yong Dong, Jian Guan & Peng Dong. (2020) Numerical simulation on biomass-pyrolysis and thermal cracking of condensable volatile component. International Journal of Hydrogen Energy 45:22, pages 12283-12297.
Crossref
Tamer M. Ismail, Ana Ramos, Eliseu Monteiro, M. Abd El-Salam & Abel Rouboa. (2020) Parametric studies in the gasification agent and fluidization velocity during oxygen-enriched gasification of biomass in a pilot-scale fluidized bed: Experimental and numerical assessment. Renewable Energy 147, pages 2429-2439.
Crossref
Denis V. Tuntsev, Rushan G. Safin & Milausha Khayrullina. (2020) Processing of Used Wooden Slippers by Thermal Method. Solid State Phenomena 299, pages 1091-1098.
Crossref
M. Brennan Pecha & Manuel Garcia-Perez. 2020. Bioenergy. Bioenergy 581 619 .
Nils Erland L. Haugen & yvind Skreiberg. (2019) A Two-Dimensional Study on the Effect of Anisotropy on the Devolatilization of a Large Wood Log. Energies 12:23, pages 4430.
Crossref
Yao Xu, Ming Zhai, Hongkun Guo, Haoxuan Qi, Xun Zou, Shuai Jin & Peng Dong. (2019) High-Temperature Pyrolysis Characteristics for a Single Biomass Particle. Energy & Fuels 33:11, pages 11153-11162.
Crossref
Yanming Ding, Juan Zhang, Qize He, Biqing Huang & Shaohua Mao. (2019) The application and validity of various reaction kinetic models on woody biomass pyrolysis. Energy 179, pages 784-791.
Crossref
Mahdi Sharifzadeh, Majid Sadeqzadeh, Miao Guo, Tohid N. Borhani, N.V.S.N. Murthy Konda, Marti Cortada Garcia, Lei Wang, Jason Hallett & Nilay Shah. (2019) The multi-scale challenges of biomass fast pyrolysis and bio-oil upgrading: Review of the state of art and future research directions. Progress in Energy and Combustion Science 71, pages 1-80.
Crossref
Andrea Dernbecher, Alba Dieguez-Alonso, Andreas Ortwein & Fouzi Tabet. (2019) Review on modelling approaches based on computational fluid dynamics for biomass combustion systems. Biomass Conversion and Biorefinery 9:1, pages 129-182.
Crossref
Ali Zolghadr, Matthew D. Kelley, Ghazal Sokhansefat, Masoud Moradian, Brianna Sullins, Tyler Ley & Joseph J. Biernacki. (2019) Biomass microspheres – A new method for characterization of biomass pyrolysis and shrinkage. Bioresource Technology 273, pages 16-24.
Crossref
Sarah N. Scott, Ryan M. Keedy, Victor E. Brunini, Matthew W. Kury, Amanda B. Dodd, James L. Urban & A. Carlos Fernandez-Pello. (2019) Validation of PMDI-based polyurethane foam model for fire safety applications. Proceedings of the Combustion Institute 37:3, pages 4009-4016.
Crossref
Yao Xu, Ming Zhai, Shuai Jin, Xun Zou, Shubin Liu & Peng Dong. (2019) Numerical simulation of high-temperature fusion combustion characteristics for a single biomass particle. Fuel Processing Technology 183, pages 27-34.
Crossref
Savankumar R. Patel, Sazal K. Kundu, Pobitra K. Halder, Adi Setiawan, Jorge Paz‐Ferreiro, Aravind Surapaneni & Kalpit V. Shah. (2018) A Hybrid Kinetic Analysis of the Biosolids Pyrolysis using Thermogravimetric Analyser. ChemistrySelect 3:47, pages 13400-13407.
Crossref
M. Pilar Remacha, Santiago Jiménez & Javier Ballester. (2018) Devolatilization of millimeter-sized biomass particles at high temperatures and heating rates. Part 2: Modeling and validation for thermally-thin and -thick regimes. Fuel 234, pages 707-722.
Crossref
M. Brennan Pecha, Emilio Ramirez, Gavin M. Wiggins, Daniel Carpenter, Branden Kappes, Stuart Daw & Peter N. Ciesielski. (2018) Integrated Particle- and Reactor-Scale Simulation of Pine Pyrolysis in a Fluidized Bed. Energy & Fuels 32:10, pages 10683-10694.
Crossref
Inge Haberle, Nils Erland L. Haugen & Øyvind Skreiberg. (2018) Simulating Thermal Wood Particle Conversion: Ash-Layer Modeling and Parametric Studies. Energy & Fuels 32:10, pages 10668-10682.
Crossref
Stephan Kraft, Matthias Kuba & Hermann Hofbauer. (2018) The behavior of biomass and char particles in a dual fluidized bed gasification system. Powder Technology 338, pages 887-897.
Crossref
V.D. Thi, M. Khelifa, M. Oudjene, M. El Ganaoui & Y. Rogaume. (2018) Numerical simulation of fire integrity resistance of full-scale gypsum-faced cross-laminated timber wall. International Journal of Thermal Sciences 132, pages 96-103.
Crossref
Inge Haberle, Nils Erland L. Haugen & Øyvind Skreiberg. (2018) Combustion of Thermally Thick Wood Particles: A Study on the Influence of Wood Particle Size on the Combustion Behavior. Energy & Fuels 32:6, pages 6847-6862.
Crossref
Dongdong Feng, Yu Zhang, Yijun Zhao, Shaozeng Sun & Jianmin Gao. (2018) Improvement and maintenance of biochar catalytic activity for in-situ biomass tar reforming during pyrolysis and H2O/CO2 gasification. Fuel Processing Technology 172, pages 106-114.
Crossref
Filipe L. Brandão, Gabriel L. Verissimo, Marco A. H. Leite, Albino J. K. Leiroz & Manuel E. Cruz. (2018) Computational Study of Sugarcane Bagasse Pyrolysis Modeling in a Bubbling Fluidized Bed Reactor. Energy & Fuels 32:2, pages 1711-1723.
Crossref
Victor Pozzobon, Sylvain Salvador & Jean Jacques Bézian. (2018) Biomass gasification under high solar heat flux: Advanced modelling. Fuel 214, pages 300-313.
Crossref
Ashish Chaurasia. (2018) Modeling of downdraft gasification process: Studies on particle geometries in thermally thick regime. Energy 142, pages 991-1009.
Crossref
Inge Haberle, Nils Erland L. Haugen & Øyvind Skreiberg. (2017) Drying of Thermally Thick Wood Particles: A Study of the Numerical Efficiency, Accuracy, and Stability of Common Drying Models. Energy & Fuels 31:12, pages 13743-13760.
Crossref
Ding Lu, Kunio Yoshikawa, Tamer M. Ismail & M. Abd El-Salam. (2017) Computational Fluid Dynamics Model on Updraft Gasifier Using Carbonized Woody Briquette as Fuel. Energy Procedia 142, pages 166-171.
Crossref
Inge Haberle, Øyvind Skreiberg, Joanna Łazar & Nils Erland L. Haugen. (2017) Numerical models for thermochemical degradation of thermally thick woody biomass, and their application in domestic wood heating appliances and grate furnaces. Progress in Energy and Combustion Science 63, pages 204-252.
Crossref
Sadegh Papari & Kelly Hawboldt. (2017) Development and Validation of a Process Model To Describe Pyrolysis of Forestry Residues in an Auger Reactor. Energy & Fuels 31:10, pages 10833-10841.
Crossref
Bo Liu, Konstantinos Papadikis, Sai Gu, Beatriz Fidalgo, Philip Longhurst, Zhongyuan Li & Athanasios Kolios. (2017) CFD modelling of particle shrinkage in a fluidized bed for biomass fast pyrolysis with quadrature method of moment. Fuel Processing Technology 164, pages 51-68.
Crossref
Logan C. Thompson, Peter N. Ciesielski, Mark W. Jarvis, Calvin Mukarakate, Mark R. Nimlos & Bryon S. Donohoe. (2017) Estimating the Temperature Experienced by Biomass Particles during Fast Pyrolysis Using Microscopic Analysis of Biochars. Energy & Fuels 31:8, pages 8193-8201.
Crossref
V.D. Thi, M. Khelifa, M. Oudjene, M. El Ganaoui & Y. Rogaume. (2017) Finite element analysis of heat transfer through timber elements exposed to fire. Engineering Structures 143, pages 11-21.
Crossref
Germán Navarrete Cereijo, Pedro Curto-Risso & Waldir Antonio Bizzo. (2017) Simplified model and simulation of biomass particle suspension combustion in one-dimensional flow applied to bagasse boilers. Biomass and Bioenergy 99, pages 38-48.
Crossref
F. Califano, C. Mongiello & C. Freda. (2016) Combined Heat and Power Production from Meat and Bone Meal via Gasification and Gas Turbine: Technical and Economic Analysis. Waste and Biomass Valorization 8:3, pages 975-986.
Crossref
Xiaotao T. Bi & Mohammad S. Masnadi. 2017. Multiphase Reactor Engineering for Clean and Low‐Carbon Energy Applications. Multiphase Reactor Engineering for Clean and Low‐Carbon Energy Applications 331 376 .
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.
Crossref
Ashish Chaurasia. (2016) Modeling, simulation and optimization of downdraft gasifier: Studies on chemical kinetics and operating conditions on the performance of the biomass gasification process. Energy 116, pages 1065-1076.
Crossref
Nelson Sousa & João L.T. Azevedo. (2016) Model simplifications on biomass particle combustion. Fuel 184, pages 948-956.
Crossref
Bijan Hejazi, John R. Grace, Xiaotao Bi & Andrés Mahecha-Botero. (2016) Coupled reactor and particle model of biomass drying and pyrolysis in a bubbling fluidized bed reactor. Journal of Analytical and Applied Pyrolysis 121, pages 213-229.
Crossref
Xiaogang Shi, Frederik Ronsse & Jan G. Pieters. (2016) Finite element modeling of intraparticle heterogeneous tar conversion during pyrolysis of woody biomass particles. Fuel Processing Technology 148, pages 302-316.
Crossref
Gavin M. Wiggins, Peter N. Ciesielski & C. Stuart Daw. (2016) Low-Order Modeling of Internal Heat Transfer in Biomass Particle Pyrolysis. Energy & Fuels 30:6, pages 4960-4969.
Crossref
Pedro Reszka & José L. Torero. 2016. Lignocellulosic Fibers and Wood Handbook. Lignocellulosic Fibers and Wood Handbook 553 581 .
V.D. Thi, M. Khelifa, M. El Ganaoui & Y. Rogaume. (2016) Finite element modelling of the pyrolysis of wet wood subjected to fire. Fire Safety Journal 81, pages 85-96.
Crossref
Joakim M. Johansen, Peter A. Jensen, Peter Glarborg, Marco Mancini, Roman Weber & Reginald E. Mitchell. (2016) Extension of apparent devolatilization kinetics from thermally thin to thermally thick particles in zero dimensions for woody biomass. Energy 95, pages 279-290.
Crossref
Stanislav I. Stoliarov & Jing Li. (2015) Parameterization and Validation of Pyrolysis Models for Polymeric Materials. Fire Technology 52:1, pages 79-91.
Crossref
Denis V. Tuntsev, Rushan R. Safin, Rustam G. Hismatov, Rifkat A. Halitov & Vladimir I. Petrov. (2015) The mathematical model of fast pyrolysis of wood waste. The mathematical model of fast pyrolysis of wood waste.
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.
Crossref
Jing Li, Junhui Gong & Stanislav I. Stoliarov. (2015) Development of pyrolysis models for charring polymers. Polymer Degradation and Stability 115, pages 138-152.
Crossref
Xi Yu, Mohamed Hassan, Raffaella Ocone & Yassir Makkawi. (2015) A CFD study of biomass pyrolysis in a downer reactor equipped with a novel gas–solid separator-II thermochemical performance and products. Fuel Processing Technology 133, pages 51-63.
Crossref
Jian Guan, Guoli Qi & Peng Dong. (2014) A granular-biomass high temperature pyrolysis model based on the Darcy flow. Frontiers of Earth Science 9:1, pages 114-124.
Crossref
Chunguang Zhou & Weihong Yang. (2015) Effect of heat transfer model on the prediction of refuse-derived fuel pyrolysis process. Fuel 142, pages 46-57.
Crossref
Abhishek Sharma, Shaobin Wang, Vishnu Pareek, Hong Yang & Dongke Zhang. (2015) Multi-fluid reactive modeling of fluidized bed pyrolysis process. Chemical Engineering Science 123, pages 311-321.
Crossref
Peter N. Ciesielski, Michael F. Crowley, Mark R. Nimlos, Aric W. Sanders, Gavin M. Wiggins, Dave Robichaud, Bryon S. Donohoe & Thomas D. Foust. (2014) Biomass Particle Models with Realistic Morphology and Resolved Microstructure for Simulations of Intraparticle Transport Phenomena. Energy & Fuels 29:1, pages 242-254.
Crossref
Victor Pozzobon, Sylvain Salvador, Jean Jacques Bézian, Mouna El-Hafi, Yannick Le Maoult & Gilles Flamant. (2014) Radiative pyrolysis of wet wood under intermediate heat flux: Experiments and modelling. Fuel Processing Technology 128, pages 319-330.
Crossref
Qun X. Huang, Ru P. Wang, Wen J. Li, Yi J. Tang, Yong Chi & Jian H. Yan. (2014) Modeling and Experimental Studies of the Effects of Volume Shrinkage on the Pyrolysis of Waste Wood Sphere. Energy & Fuels 28:10, pages 6398-6406.
Crossref
Adriana de Oliveira Vilela, Electo Silva Lora, Quelbis Roman Quintero, Ricardo Antônio Vicintin & Thalis Pacceli da Silva e Souza. (2014) A new technology for the combined production of charcoal and electricity through cogeneration. Biomass and Bioenergy 69, pages 222-240.
Crossref
Abhishek Sharma, Vishnu Pareek, Shaobin Wang, Zhezi Zhang, Hong Yang & Dongke Zhang. (2014) A phenomenological model of the mechanisms of lignocellulosic biomass pyrolysis processes. Computers & Chemical Engineering 60, pages 231-241.
Crossref
Feng Zhang, Yong Wang, Shaoxiang Li & Jun Zhang. (2012) Influence of thermophysical properties on burning behavior of intumescent fire-retardant materials. Journal of Thermal Analysis and Calorimetry 113:2, pages 803-810.
Crossref
Pierre Lamarche, Mohand Tazerout, Franck Gelix, Stefanie Köhler, Karim Mati & Frédéric Paviet. (2013) Modelling of an indirectly heated fixed bed pyrolysis reactor of wood: Transition from batch to continuous staged gasification. Fuel 106, pages 118-128.
Crossref
Yafei Wang & Xiaoping Zheng. (2013) Numerical and Experimental Study of the Influence of Pressure Work on Pyrolysis of Wood Exposed to Radiation. Journal of Applied Fire Science 23:3, pages 319-335.
Crossref
Hang Seok Choi, Yeon Seok Choi & Hoon Chae Park. (2012) Fast pyrolysis characteristics of lignocellulosic biomass with varying reaction conditions. Renewable Energy 42, pages 131-135.
Crossref
A. Saravanakumar, Mathew J. Hagge, T.M. Haridasan & Kenneth M. Bryden. (2011) Numerical modelling of a fixed bed updraft long stick wood gasifier. Biomass and Bioenergy 35:10, pages 4248-4260.
Crossref
Y. Haseli, J.A. van Oijen & L.P.H. de Goey. (2011) Modeling biomass particle pyrolysis with temperature-dependent heat of reactions. Journal of Analytical and Applied Pyrolysis 90:2, pages 140-154.
Crossref
Enrico Grieco & Giancarlo Baldi. (2011) Analysis and modelling of wood pyrolysis. Chemical Engineering Science 66:4, pages 650-660.
Crossref
Enzo Benanti, Cesare Freda, Vincenzo Lorefice, Giacobbe Braccio & Vinod SharmaKumarKumar. (2011) Simulation of olive pits pyrolysis in a rotary kiln plant. Thermal Science 15:1, pages 145-158.
Crossref
D. Ruben Sudhakar & Ajit Kumar Kolar. (2010) Transient Three-Dimensional Mathematical Model and Experimental Investigation of a Wet Devolatilizing Wood in a Hot Fluidized Bed. Energy & Fuels 24:9, pages 4820-4832.
Crossref
Hang Seok Choi, Yeon Seok Choi & Hoon Che Park. (2010) The influence of fast pyrolysis condition on biocrude-oil yield and homogeneity. Korean Journal of Chemical Engineering 27:4, pages 1164-1169.
Crossref
K. Papadikis, S. Gu, A. Fivga & A. V. Bridgwater. (2010) Numerical Comparison of the Drag Models of Granular Flows Applied to the Fast Pyrolysis of Biomass. Energy & Fuels 24:3, pages 2133-2145.
Crossref
Won Chan Park, Arvind Atreya & Howard R. Baum. (2010) Experimental and theoretical investigation of heat and mass transfer processes during wood pyrolysis. Combustion and Flame 157:3, pages 481-494.
Crossref
K. Papadikis, S. Gu & A.V. Bridgwater. (2010) Computational modelling of the impact of particle size to the heat transfer coefficient between biomass particles and a fluidised bed. Fuel Processing Technology 91:1, pages 68-79.
Crossref
Hang Seok Choi, Yeon Seok Choi & Seock Joon Kim. (2009) Numerical study of fast pyrolysis of woody biomass in a gravity‐driven reactor. Environmental Progress & Sustainable Energy 28:3, pages 418-426.
Crossref
K. Papadikis, S. Gu, A.V. Bridgwater & H. Gerhauser. (2009) Application of CFD to model fast pyrolysis of biomass. Fuel Processing Technology 90:4, pages 504-512.
Crossref
K. Papadikis, S. Gu & A.V. Bridgwater. (2009) CFD modelling of the fast pyrolysis of biomass in fluidised bed reactors. Part B. Chemical Engineering Science 64:5, pages 1036-1045.
Crossref
U. Sand, J. Sandberg, J. Larfeldt & R. Bel Fdhila. (2008) Numerical prediction of the transport and pyrolysis in the interior and surrounding of dry and wet wood log. Applied Energy 85:12, pages 1208-1224.
Crossref
Rãzvan Vıˆjeu, Luc Gerun, Mohand Tazerout, Cathy Castelain & Jérôme Bellettre. (2008) Dimensional modelling of wood pyrolysis using a nodal approach. Fuel 87:15-16, pages 3292-3303.
Crossref
Hong Lu, Warren Robert, Gregory Peirce, Bryan Ripa & Larry L. Baxter. (2008) Comprehensive Study of Biomass Particle Combustion. Energy & Fuels 22:4, pages 2826-2839.
Crossref
S. Stoliarov & R. Lyon. (2008) Thermo-Kinetic Model of Burning for Pyrolyzing Materials. Fire Safety Science 9, pages 1141-1152.
Crossref
J. Ratte, F. Marias, J. Vaxelaire & P. Bernada. (2008) Mathematical Modelling of Slow Pyrolysis of a Particle of Impregnated Wood. High Temperature Materials and Processes 27:5.
Crossref
Francesco Fantozzi, Simone Colantoni, Pietro Bartocci & Umberto Desideri. (2007) Rotary Kiln Slow Pyrolysis for Syngas and Char Production From Biomass and Waste — Part II: Introducing Product Yields in the Energy Balance. Journal of Engineering for Gas Turbines and Power 129:4, pages 908-913.
Crossref
D.K. Shen, M.X. Fang, Z.Y. Luo & K.F Cen. (2007) Modeling pyrolysis of wet wood under external heat flux. Fire Safety Journal 42:3, pages 210-217.
Crossref
Chekib Ghabi, Hmaied Benticha & Mohammed Sassi. (2007) Parametric study of the heat transfer coefficient in bi-dimensional smoldering simulation. Thermal Science 11:4, pages 95-112.
Crossref
Behdad Moghtaderi. (2005) The state‐of‐the‐art in pyrolysis modelling of lignocellulosic solid fuels. Fire and Materials 30:1, pages 1-34.
Crossref
B.V. Babu & A.S. Chaurasia. (2004) Heat transfer and kinetics in the pyrolysis of shrinking biomass particle. Chemical Engineering Science 59:10, pages 1999-2012.
Crossref
Marc L. Janssens. (2004) Modeling of the thermal degradation of structural wood members exposed to fire. Fire and Materials 28:2-4, pages 199-207.
Crossref
Kenneth M. Bryden & Mathew J. Hagge. (2003) Modeling the combined impact of moisture and char shrinkage on the pyrolysis of a biomass particle☆. Fuel 82:13, pages 1633-1644.
Crossref
Guan-yi Chen, Meng-xiang Fang, J. Andries, Zhong-yang Luo, H. Spliethoff & Ke-fa Cen. (2003) Kinetics study on biomass pyrolysis for fuel gas production. Journal of Zhejiang University-SCIENCE A 4:4, pages 441-447.
Crossref
Antonio Galgano & Colomba Di Blasi. (2003) Modeling Wood Degradation by the Unreacted-Core-Shrinking Approximation. Industrial & Engineering Chemistry Research 42:10, pages 2101-2111.
Crossref
Sung-Chul Yi & Mohammad R. Hajaligol. (2003) Product distribution from the pyrolysis modeling of tobacco particles. Journal of Analytical and Applied Pyrolysis 66:1-2, pages 217-234.
Crossref
Mathew J Hagge & Kenneth M Bryden. (2002) Modeling the impact of shrinkage on the pyrolysis of dry biomass. Chemical Engineering Science 57:14, pages 2811-2823.
Crossref
Kenneth M. Bryden, Kenneth W. Ragland & Christopher J. Rutland. (2002) Modeling thermally thick pyrolysis of wood. Biomass and Bioenergy 22:1, pages 41-53.
Crossref
Sung-Chul Yi, Eun-Seok Song & Mohammad R. Hajaligol. (2016) Mathematical Model of Smoldering Combustion in a Carbonaceous Porous Medium Part 1 – Development of Pyrolysis and Combustion Models for a Cylindrical Geometry. Journal of Fire Sciences 19:6, pages 429-448.
Crossref
Colomba Di Blasi & Carmen Branca. (2004) Mathematical model for the nonsteady decomposition of intumescent coatings. AIChE Journal 47:10, pages 2359-2370.
Crossref
M.G Wolfinger, J Rath, G Krammer, F Barontini & V Cozzani. (2001) Influence of the emissivity of the sample on differential scanning calorimetry measurements. Thermochimica Acta 372:1-2, pages 11-18.
Crossref
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.
Crossref
Colomba Di Blasi. (2000) The state of the art of transport models for charring solid degradation. Polymer International 49:10, pages 1133-1146.
Crossref
A.M.C. Janse, R.W.J. Westerhout & W. Prins. (2000) Modelling of flash pyrolysis of a single wood particle. Chemical Engineering and Processing: Process Intensification 39:3, pages 239-252.
Crossref
Lieve Helsen & E. Van den Bulck. (2000) Kinetics of the low-temperature pyrolysis of chromated copper arsenate-treated wood. Journal of Analytical and Applied Pyrolysis 53:1, pages 51-79.
Crossref
Valerio Cozzani & Severino Zanelli. (1999) Precursors of dangerous substances formed in the loss of control of chemical systems. Journal of Hazardous Materials 65:1-2, pages 93-108.
Crossref
Arthur M. C. Janse, Harald G. de Jonge, Wolter Prins & Wim P. M. van Swaaij. (1998) Combustion Kinetics of Char Obtained by Flash Pyrolysis of Pine Wood. Industrial & Engineering Chemistry Research 37:10, pages 3909-3918.
Crossref
Colomba Di Blasi. (1998) Physico-chemical processes occurring inside a degrading two-dimensional anisotropic porous medium. International Journal of Heat and Mass Transfer 41:24, pages 4139-4150.
Crossref
B. Moghtaderi, B. Z. Dlugogorski, E. M. Kennedy & D. F. Fletcher. (1998) Effects of the structural properties of solid fuels on their re-ignition characteristics. Fire and Materials 22:4, pages 155-165.
Crossref
D. Semino & L. Tognotti. (1998) Modelling and sensitivity analysis of pyrolysis of biomass particle in a fluidised bed. Computers & Chemical Engineering 22, pages S699-S702.
Crossref
Richard E. Lyon. (1998) Pyrolysis kinetics of char forming polymers. Polymer Degradation and Stability 61:2, pages 201-210.
Crossref
Colomba Di Blasi. (1998) Multi-phase moisture transfer in the high-temperature drying of wood particles. Chemical Engineering Science 53:2, pages 353-366.
Crossref
Colomba Di Blasi. (1997) Influences of physical properties on biomass devolatilization characteristics. Fuel 76:10, pages 957-964.
Crossref
Colomba Di Blasi & Mario Lanzetta. (1997) Intrinsic kinetics of isothermal xylan degradation in inert atmosphere. Journal of Analytical and Applied Pyrolysis 40-41, pages 287-303.
Crossref
Colomba Di Blasi. 1997. Developments in Thermochemical Biomass Conversion. Developments in Thermochemical Biomass Conversion 147 160 .
Jaakko Saastamoinen & Jean-Robert Richard. (1996) Simultaneous drying and pyrolysis of solid fuel particles. Combustion and Flame 106:3, pages 288-300.
Crossref
Colomba Di Blasi. (1996) Heat transfer mechanisms and multi-step kinetics in the ablative pyrolysis of cellulose. Chemical Engineering Science 51:10, pages 2211-2220.
Crossref
Colomba Di Blasi. (1996) Heat, momentum and mass transport through a shrinking biomass particle exposed to thermal radiation. Chemical Engineering Science 51:7, pages 1121-1132.
Crossref
Valerio Cozzani, Cristiano Nicolella, Mauro Rovatti & Leonardo Tognotti. (1996) Modeling and Experimental Verification of Physical and Chemical Processes during Pyrolysis of a Refuse-Derived Fuel. Industrial & Engineering Chemistry Research 35:1, pages 90-98.
Crossref
Colomba Di Blasi. (1996) Influences of model assumptions on the predictions of cellulose pyrolysis in the heat transfer controlled regime. Fuel 75:1, pages 58-66.
Crossref
R. Bilbao, M.L. Salvador & J. Arauzo. (1994) Influence of the heating rate on the temperature profiles and on the conversion rate of powdery cellulose and pine sawdust. Journal of Analytical and Applied Pyrolysis 30:2, pages 145-159.
Crossref
Colomba Di Blasi. (1994) Processes of flames spreading over the surface of charring fuels: Effects of the solid thickness. Combustion and Flame 97:2, pages 225-239.
Crossref
I. Wichman & A. Oladipo. (1994) Examination Of Three Pyrolytic Reaction Schemes For Cellulosic Materials. Fire Safety Science 4, pages 313-323.
Crossref
C. Diblasi. (1994) On The Influence Of Physical Processes On The Transient Pyrolysis Of Cellulosic Samples. Fire Safety Science 4, pages 229-240.
Crossref
Colomba Di Blasi. (1994) Numerical simulation of cellulose pyrolysis. Biomass and Bioenergy 7:1-6, pages 87-98.
Crossref
Colomba Di Blasi. (1993) Modeling and simulation of combustion processes of charring and non-charring solid fuels. Progress in Energy and Combustion Science 19:1, pages 71-104.
Crossref
Przemyslaw Maziarka, Andrés Anca-Couce, Wolter Prins & Frederik Ronsse. (2022) A Meta-Analysis of Relevant Thermal and Chemical Phenomena Descriptions Applied in Cfd Modelling of Pyrolysis of a Single, Thermally-Thick Wood Particle. SSRN Electronic Journal.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.