Titre : |
Modeling Study of Pyrolysis of Composite Materials: Application to Wood and Carbon/Epoxy Composite |
Titre original : |
Modélisation de la pyrolyse des matériaux composites : Application au bois et composite carbone/époxy |
Type de document : |
thèse |
Auteurs : |
Xiaowen QIN, Auteur ; Thomas ROGAUME, Directeur de thèse ; Franck RICHARD, Directeur de thèse ; Benjamin BATIOT, Directeur de thèse ; Institut PPRIME UPR CNRS 3346 - FTC, Commanditaire ; Alexis COPPALLE, Rapporteur ; Bernard PORTERIE, Rapporteur ; Pascal BOULET, Examinateur ; Jean LACHAUD, Examinateur ; Virginie DRÉAN, Examinateur |
Importance : |
288 p. |
Note générale : |
NNT 2021ESMA0006
Acknowledgements
Abstract
Table of Content
List of Figures
List of Tables
Nomenclature
References
Appendicex: Summary in French for each Chpater
|
Catégories : |
Bois:Combustion Calorimètres Composites Incendies:Prévention Pyrolyse Simulation, Méthodes de Transfert de chaleur Transfert de masse
|
Résumé : |
INTRODUCTION
Background and Motivation
Research Aim
Research Methodology
Thesis Outline
LITERATURE REVIEW
Composite Materials: General Background
Pyrolysis Phenomenon in the Fire Scenario
Multi-Scale Experiment and parameters Estimation
Conclusion
DESCRIPTION OF THE PATO SOLVER
The Theory of Volume Averaging
Pyrolysis Kinetics*Conservation Equations*Boundary Conditions
Modeling Work Protocol
Modeling Assumption and Simulation Options
Conclusion
PARTICLE SCALE MODELING OF THE WOOD PYROLYSIS
TGA Experitmental Procedure
TGA Experitmental Results
TGA Pyrolysis Modeling Study
Conclusion
CONE CALORIMETER EXPERIMENTS AND MODEL VALIDATION FOR WOOD PYROLYSIS
CACC Experiment Description and Temperature Measurement
Inverse Analysis to Obtain Heat Convection Coefficient
Inverse Analysis to Obtain Wood Thermophysical Parameters
Inverse Analysis to Obtain Char Thermophysical Parameters
Model Validation for Moisture Evaporation
Model Validation for Wood Pyrolysis under Different Scenarios
Conclusion
MULTI-SCALE APPLICATION OF THE MODEL TO CARBON/EPOXY COMPOSITE PYROLYSIS
TGA Experiments and Model Validation
Cone Calorimeter Experiments and Model Validation
COnclusion
SENSITIVITY ANALYSIS
Kinetic and Thermodynamic Parameters Influence
Thermal and Physical Parameters Influence
Boundary Parameters Influence
Water Content Influence
Concusion
CONCLUSION AND PERSPECTIVE
Conclusion
Perspective |
En ligne : |
https://tel.archives-ouvertes.fr/tel-03167564 |