Add to ORKGThe kinetics of reaction CH3 + HO2 → CH3O + OH in supercritical carbon dioxide media at pressures from 0.3 to 1000 atm in the temperature range (600-1600) K was studied using boxed molecular dynamics simulations at QM/MM theory level with periodical boundary conditions. The mechanism of this process includes two consecutive steps: formation and decomposition of CH3OOH intermediate. We calculated the activation free energies and rate constants of each step, then used Bodenstein\u27s quasistationary concentrations approximation to estimate the rate constants of the reaction. On the basis of the temperature dependence of the rate constants, parameters in the extended Arrhenius equation were determined. We found that reaction rate of each step,...
A detailed chemical kinetic model (DCKM) was compiled to investigate the chemistry of the supercriti...
In the current study the effect of CO2 dilution on reaction kinetics was studied numerically in a me...
The reaction of <sup>3</sup>CH<sub>2</sub> with <sup>3</sup>O<sub>2</sub> is of fundamental importan...
The kinetics of reaction CH<sub>3</sub> + HO<sub>2</sub> → CH<sub>3</sub>O + OH in supercritical car...
Oxy-fuel combustion technology holds a great promise in both increasing the efficiency of the energy...
Fossil fuel oxy-combustion is an emerging technology where the habitual nitrogen diluent is replaced...
We investigated the reaction rates of OH + CO → H + CO2 in supercritical CO2 environment with and wi...
We investigated the reaction rates of OH + CO → H + CO<sub>2</sub> in supercritical CO<sub>2</sub> e...
Direct fired supercritical CO2 (sCO2) power cycles allow for the combustion of gaseous fuels under o...
The oxy-fuel−carbon dioxide combustion process is expected to drastically increase the energy effici...
The supercritical carbon dioxide diluent is used to control the temperature and to increase the effi...
Reduced mechanisms are needed for use with computational fluid dynamic codes (CFD) utilized in the d...
The supercritical carbon dioxide diluent is used to control the temperature and to increase the effi...
In oxy-fuel combustion, the pure oxygen (O2), diluted with CO2 is used as oxidant instead air. Hence...
Reduced mechanisms are needed for use with computational fluid dynamic codes (CFD) utilized in the d...
A detailed chemical kinetic model (DCKM) was compiled to investigate the chemistry of the supercriti...
In the current study the effect of CO2 dilution on reaction kinetics was studied numerically in a me...
The reaction of <sup>3</sup>CH<sub>2</sub> with <sup>3</sup>O<sub>2</sub> is of fundamental importan...
The kinetics of reaction CH<sub>3</sub> + HO<sub>2</sub> → CH<sub>3</sub>O + OH in supercritical car...
Oxy-fuel combustion technology holds a great promise in both increasing the efficiency of the energy...
Fossil fuel oxy-combustion is an emerging technology where the habitual nitrogen diluent is replaced...
We investigated the reaction rates of OH + CO → H + CO2 in supercritical CO2 environment with and wi...
We investigated the reaction rates of OH + CO → H + CO<sub>2</sub> in supercritical CO<sub>2</sub> e...
Direct fired supercritical CO2 (sCO2) power cycles allow for the combustion of gaseous fuels under o...
The oxy-fuel−carbon dioxide combustion process is expected to drastically increase the energy effici...
The supercritical carbon dioxide diluent is used to control the temperature and to increase the effi...
Reduced mechanisms are needed for use with computational fluid dynamic codes (CFD) utilized in the d...
The supercritical carbon dioxide diluent is used to control the temperature and to increase the effi...
In oxy-fuel combustion, the pure oxygen (O2), diluted with CO2 is used as oxidant instead air. Hence...
Reduced mechanisms are needed for use with computational fluid dynamic codes (CFD) utilized in the d...
A detailed chemical kinetic model (DCKM) was compiled to investigate the chemistry of the supercriti...
In the current study the effect of CO2 dilution on reaction kinetics was studied numerically in a me...
The reaction of <sup>3</sup>CH<sub>2</sub> with <sup>3</sup>O<sub>2</sub> is of fundamental importan...