Analysis of Pyrolysis Kinetics of Biomass Particle under Isothermal and Non-isothermal Heating Conditions using Differential Transformation Method

Analysis of Pyrolysis Kinetics of Biomass Particle under Isothermal and Non-isothermal Heating Conditions using Differential Transformation Method

M. G. Sobamowo

Contact

S. J. Ojolo

Contact

C. A. Osheku

Contact

University of Lagos

Analysis of Pyrolysis Kinetics of Biomass Particle under Isothermal and Non-isothermal Heating Conditions using Differential Transformation Method

Article Fingerprint

ReserarchID

S92P2

AI TAKEAWAY

Connecting with the Eternal Ground

Abstract

In this study, differential transformation method is applied to analyze pyrolysis kinetics of biomass particle under isothermal and non-isothermal heating conditions. The developed analytical solutions to the system of pyrolysis kinetic models are used to investigate the effects of heating conditions and heating rates on the pyrolysis residence time and technologies. Also, in order to verify the analytical solutions, the developed analytical solutions of the kinetic models using differential transformation method are compared with the results of the solutions of exact analytical method. Additionally, good agreements are established between the present results and the past works. It is therefore expected that this study will enhance the understanding of the pyrolysis process by giving physical insights into the various factors and the parameters affecting the phenomena.”

References

55 Cites in Article

Reference Format

D Pyle,C Zaror (1984). Heat transfer and kinetics in the low temperature pyrolysis of solids.
C Bamford,J Crank,D Malan (1946). The combustion of wood. Part I.
A Roberts,G Clough (1963). Thermal degradation of wood in an inert atmosphere.
Edward Kansa,Henry Perlee,Robert Chaiken (1977). Mathematical model of wood pyrolysis including internal forced convection.
W Chan,M Kelbon,B Krieger (1985). Modeling and experimental verification of physical and chemical processes during pyrolysis of large biomass particle.
C Koufopanos,N Papayannakos,G Maschio,A Lucchesi (1991). Modelling of the pyrolysis of biomass particles. Studies on kinetics, thermal and heat transfer effects.
Kei Miyanami,Liang‐shih Fan,L Fan,W Walawender (1977). A mathematical model for pyrolysis of a solid particle — effects of the heat of reaction.
L Fan,L Fan,K Miyanami,T Chen,W Walawender (1977). A mathematical model for pyrolysis of a solid particle-effects of the Lewis number.
J Villermaux,B Antoine,J Lede,F Soulignac (1986). A new model for thermal volatilization of solid particles undergoing fast pyrolysis.
C Blasi (1993). Analysis of convection and secondary reaction effects within porous solid fuels undergoing pyrolysis.
R Jalan,V Srivastava (1999). Studies on pyrolysis of a single biomass cylindrical pelletkinetic and heat transfer effects.
M Ravi,Anurag Jhalani,Sanjiv Sinha,Anjan Ray (2004). Development of a semi-empirical model for pyrolysis of an annular sawdust bed.
B Babu,Pratik N. Sheth (2006). Modeling and Simulation of Reduction Zone of Downdraft Biomass Gasifier: Effect of Air to Fuel Ratio.
Piyarat Weerachanchai,Chaiyot Tangsathitkulchai,Malee Tangsathitkulchai (2010). Fuel Properties and Chemical Compositions of Bio-Oils from Biomass Pyrolysis.
Katarzyna Slopiecka,Pietro Bartocci,Francesco Fantozzi (2011). Thermogravimetric analysis and kinetic study of poplar wood pyrolysis.
S Ojolo,C Osheku,M Sobamowo (2013). Analytical Investigations of Kinetic and Heat Transfer in Slow Pyrolysis of a Biomass Particle.
B Dizaji,M Bidabadi (2014). Analytical study about the kinetics of different processes in pyrolysis of lycopodium dust.
Rafael Font,Antonio Marcilla,Emilio Verdu,Joaquin Devesa (1990). Kinetics of the pyrolysis of almond shells and almond shells impregnated with cobalt dichloride in a fluidized bed reactor and in a pyroprobe 100.
Franz Thurner,Uzi Mann (1981). Kinetic investigation of wood pyrolysis.
A Liden,F Berruti,D Scott (1988). A KINETIC MODEL FOR THE PRODUCTION OF LIQUIDS FROM THE FLASH PYROLYSIS OF BIOMASS.
N Prakash,T Karunanithi (2008). Kinetic Modelling in Biomass pyrolysis -a review.
Carmen Branca,Colomba Di Blasi (2003). Kinetics of the isothermal degradation of wood in the temperature range 528–708 K.
G Gauthier,T Melkior,S Salvador,M Corbetta,A Frassoldati,S Pierucci,E Ranzi,H Bennadji,E Fisher (2013). Pyrolysis of Thick Biomass Particles: Experimental and Kinetic Modelling.
D Suriapparao,R Vinu (2017). Effects of Biomass Particle Size on Slow Pyrolysis Kinetics and Fast Pyrolysis Product Distribution.
Hayat Bennadji,Krystle Smith,Shaka Shabangu,Elizabeth Fisher (2013). Low-Temperature Pyrolysis of Woody Biomass in the Thermally Thick Regime.
Eliseo Ranzi,Sauro Pierucci,Pier Aliprandi,Silvano Stringa (2011). Comprehensive and Detailed Kinetic Model of a Traveling Grate Combustor of Biomass.
Won Park,Arvind Atreya,Howard Baum (2010). Experimental and theoretical investigation of heat and mass transfer processes during wood pyrolysis.
K Norinaga (2013). Detailed chemical kinetic modelling of vapour-phase cracking of multicomponent molecular mixtures derived from the fast pyrolysis of cellulose.
E Ranzi,A Frassoldati,R Grana,A Cuoci,T Faravelli,A Kelley,C Law (2012). Hierarchical and comparative kinetic modeling of laminar flame speeds of hydrocarbon and oxygenated fuels.
C Koufopanos,A Lucchesi,G Maschio (1989). Kinetic modelling of the pyrolysis of biomass and biomass components.
B Babu,A Chaurasia (2003). Modeling for pyrolysis of solid particle: kinetics and heat transfer effects.
C Koufopanos,N Papayannakos,G Maschio,A Lucchesi (1991). Modelling of the pyrolysis of biomass particles. Studies on kinetics, thermal and heat transfer effects.
Giancarlo Gentile,Paulo Debiagi,Alberto Cuoci,Alessio Frassoldati,Eliseo Ranzi,Tiziano Faravelli (2017). A computational framework for the pyrolysis of anisotropic biomass particles.
C Blasi (2008). Modeling chemical and physical processes of wood and biomass pyrolysis.
Andrés Anca-Couce (2016). Reaction mechanisms and multi-scale modelling of lignocellulosic biomass pyrolysis.
Matthew Mettler,Dionisios Vlachos,Paul Dauenhauer (2012). Top ten fundamental challenges of biomass pyrolysis for biofuels.
K Davidsson,J Pettersson (2002). Birch wood particle shrinkage during rapid pyrolysis.
C Blasi (1996). Heat, momentum and mass transport through a shrinking biomass particle exposed to thermal radiation.
J Larfeldt,B Leckner,M Melaaen (2000). Modelling and measurements of the pyrolysis of large wood particles.
B Babu,A Chaurasia (2003). Modeling, simulation and estimation of optimum parameters in pyrolysis of biomass.
B Babu,A Chaurasia (2004). Heat transfer and kinetics in the pyrolysis of shrinking biomass particle.
Alberto Cuoci,Alessio Frassoldati,Tiziano Faravelli,Eliseo Ranzi (2013). A computational tool for the detailed kinetic modeling of laminar flames: Application to C2H4/CH4 coflow flames.
A Cuoci,A Frassoldati,T Faravelli,E Ranzi (2015). OpenSMOKE++: An object-oriented framework for the numerical modeling of reactive systems with detailed kinetic mechanisms.
T Maffei,G Gentile,S Rebughini,M Bracconi,F Manelli,S Lipp,A Cuoci,M Maestri (2016). A multiregion operator-splitting CFD approach for coupling microkinetic modeling with internal porous transport in heterogeneous catalytic reactors.
Julien Blondeau,Hervé Jeanmart (2012). Biomass pyrolysis at high temperatures: Prediction of gaseous species yields from an anisotropic particle.
Qinzheng Yang,Odd Faltinsen,Rong Zhao (1996). Wash of Ships in Finite Depth.
Hayat Bennadji,Krystle Smith,Shaka Shabangu,Elizabeth Fisher (2013). Low-Temperature Pyrolysis of Woody Biomass in the Thermally Thick Regime.
Michele Corbetta,Alessio Frassoldati,Hayat Bennadji,Krystle Smith,Michelle Serapiglia,Guillaume Gauthier,Thierry Melkior,Eliseo Ranzi,Elizabeth Fisher (2014). Pyrolysis of Centimeter-Scale Woody Biomass Particles: Kinetic Modeling and Experimental Validation.
G Gauthier (2013). Syntesis of second generation biofuels: study of pyrolysis of centimeter-scale wood particles at high temperature.
Guillaume Gauthier,Thierry Melkior,Maguelone Grateau,Sébastien Thiery,Sylvain Salvador (2013). Pyrolysis of centimetre-scale wood particles: New experimental developments and results.
Alex Paulsen,Blake Hough,C Williams,Andrew Teixeira,Daniel Schwartz,Jim Pfaendtner,Paul Dauenhauer (2014). Fast Pyrolysis of Wood for Biofuels: Spatiotemporally Resolved Diffuse Reflectance In situ Spectroscopy of Particles.
Eliseo Ranzi,Alberto Cuoci,Tiziano Faravelli,Alessio Frassoldati,Gabriele Migliavacca,Sauro Pierucci,Samuele Sommariva (2008). Chemical Kinetics of Biomass Pyrolysis.
P Debiagi,C Pecchi,G Gentile,A Frassoldati,A Cuoci,T Faravelli,E Ranzi (2015). Extractives extend the applicability of multistep kinetic scheme of biomass pyrolysis.
Paulo Debiagi,Giancarlo Gentile,Matteo Pelucchi,Alessio Frassoldati,Alberto Cuoci,Tiziano Faravelli,Eliseo Ranzi (2016). Detailed kinetic mechanism of gas-phase reactions of volatiles released from biomass pyrolysis.
Ivan Milosavljevic,Eric Suuberg (1995). Cellulose Thermal Decomposition Kinetics: Global Mass Loss Kinetics.

Download References

Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

M. G. Sobamowo. 2017. \u201cAnalysis of Pyrolysis Kinetics of Biomass Particle under Isothermal and Non-isothermal Heating Conditions using Differential Transformation Method\u201d. Global Journal of Research in Engineering - A : Mechanical & Mechanics GJRE-A Volume 17 (GJRE Volume 17 Issue A6): .

More Citation Formats

Select Citation Style:

Download Citation

Download Article

GJRE Volume 17 Issue A6
Pg. 1- 21

Explore Journals Explore Volume Read This Issue

Journal Specifications

Crossref Journal DOI 10.17406/gjre

Print ISSN 0975-5861

e-ISSN 2249-4596

Keywords

Not Found

Classification

GJRE-A Classification: FOR Code: 660299p

Submission ReceivedDecember 14, 2016
Peer Review Double Blind
Handling Editor
Accepted January 3, 2017
Published January 15, 2017

Version of record

v1.2

Issue date

December 6, 2017

Language

Experiance in AR

Explore published articles in an immersive Augmented Reality environment. Our platform converts research papers into interactive 3D books, allowing readers to view and interact with content using AR and VR compatible devices.

View in VR

Read in 3D

Your published article is automatically converted into a realistic 3D book. Flip through pages and read research papers in a more engaging and interactive format.

View in 3D

Article Matrices

Total Score: 103

Country: Nigeria

Subject: Global Journal of Research in Engineering - A : Mechanical & Mechanics

Authors: M. G. Sobamowo, S. J. Ojolo, C. A. Osheku (PhD/Dr. count: 0)

View Count (all-time): 218

Total Views (Real + Logic): 3353

Total Downloads (simulated): 1600

Publish Date: 2017 12, Wed

Monthly Totals (Real + Logic):

Month 1: 42 views
Month 2: 51 views
Month 3: 28 views
Month 4: 28 views
Month 5: 61 views
Month 6: 26 views
Month 7: 39 views
Month 8: 44 views
Month 9: 40 views
Month 10: 47 views
Month 11: 59 views
Month 12: 36 views
Month 13: 24 views
Month 14: 28 views
Month 15: 32 views
Month 16: 44 views
Month 17: 25 views
Month 18: 27 views
Month 19: 35 views
Month 20: 28 views
Month 21: 18 views
Month 22: 27 views
Month 23: 31 views
Month 24: 30 views
Month 25: 14 views
Month 26: 39 views
Month 27: 32 views
Month 28: 33 views
Month 29: 33 views
Month 30: 24 views
Month 31: 21 views
Month 32: 38 views
Month 33: 46 views
Month 34: 16 views
Month 35: 42 views
Month 36: 32 views
Month 37: 24 views
Month 38: 41 views
Month 39: 36 views
Month 40: 23 views
Month 41: 37 views
Month 42: 25 views
Month 43: 32 views
Month 44: 32 views
Month 45: 30 views
Month 46: 35 views
Month 47: 40 views
Month 48: 24 views
Month 49: 18 views
Month 50: 21 views
Month 51: 22 views
Month 52: 24 views
Month 53: 34 views
Month 54: 41 views
Month 55: 26 views
Month 56: 24 views
Month 57: 33 views
Month 58: 27 views
Month 59: 26 views
Month 60: 41 views
Month 61: 27 views
Month 62: 39 views
Month 63: 12 views
Month 64: 34 views
Month 65: 22 views
Month 66: 19 views
Month 67: 24 views
Month 68: 30 views
Month 69: 28 views
Month 70: 29 views
Month 71: 40 views
Month 72: 22 views
Month 73: 30 views
Month 74: 50 views
Month 75: 19 views
Month 76: 43 views
Month 77: 38 views
Month 78: 42 views
Month 79: 22 views
Month 80: 20 views
Month 81: 41 views
Month 82: 19 views
Month 83: 22 views
Month 84: 19 views
Month 85: 33 views
Month 86: 43 views
Month 87: 24 views
Month 88: 26 views
Month 89: 29 views
Month 90: 27 views
Month 91: 28 views
Month 92: 19 views
Month 93: 39 views
Month 94: 24 views
Month 95: 27 views
Month 96: 18 views
Month 97: 32 views
Month 98: 42 views
Month 99: 47 views
Month 100: 49 views
Month 101: 36 views

Total Views: 3353

Total Downloads: 1600

2026 Trends

Published Article

Our website is actively being updated, and changes may occur frequently. Please clear your browser cache if needed. For feedback or error reporting, please email [email protected]