Modeling Negative Temperature Coefficient region in methane oxidation

P Sabia, M de Joannon, A Picarelli, A Chinnici… - Fuel, 2012 - Elsevier
Standard kinetic models are essential tools for predicting and interpreting the evolution of
oxidation processes and obtain useful information for designing and dimensioning practical …
被引用次数:57 相关文章

Modeling Negative Temperature Coefficient region in methane oxidation

P Sabia, M Joannon, A Picarelli, A Chinnici… - Fuel, 2012 - ui.adsabs.harvard.edu
Standard kinetic models are essential tools for predicting and interpreting the evolution of
oxidation processes and obtain useful information for designing and dimensioning practical …

Modeling Negative Temperature Coefficient region in methane oxidation

P Sabia, M de Joannon, A Picarelli, A Chinnici… - Fuel, 2012 - hero.epa.gov
Standard kinetic models are essential tools for predicting and interpreting the evolution of
oxidation processes and obtain useful information for designing and dimensioning practical …

[引用][C] Modeling Negative Temperature Coefficient region in methane oxidation

P SABIA, MD JOANNON, A PICARELLI… - Fuel …, 2012 - pascal-francis.inist.fr
Modeling Negative Temperature Coefficient region in methane oxidation CNRS Inist Pascal-Francis
CNRS Pascal and Francis Bibliographic Databases Simple search Advanced search Search by …

Modeling Negative Temperature Coefficient region in methane oxidation

P Sabia, M de Joannon, A Picarelli, A Chinnici… - Fuel, 2012 - infona.pl
Standard kinetic models are essential tools for predicting and interpreting the evolution of
oxidation processes and obtain useful information for designing and dimensioning practical …

[引用][C] Modeling Negative Temperature Coefficient region in methane oxidation

P SABIA, MD JOANNON, A PICARELLI, A CHINNICI… - Fuel, 2012 - Elsevier