The aim of this paper is to analyze and discuss a kinetic mechanism able to describe the low temperature reactivity of n-butanol. Using a lumped approach, already successfully adopted for the low temperature mechanism of n-alkanes, an existing mechanism of n-butanol pyrolysis and combustion is extended to include the low temperature reactivity. The model is validated in a wide range of conditions (P=1÷80 atm, T=500÷1500 K), using recent autoignition data measured in shock tubes and detailed species profiles measured in Jet Stirred Reactors (JSR). The comparisons between the experimental data and model predictions further confirm the validity and the broad applicability of the kinetic model
This work presents new experimental data for n-C3-C6 alcohol, combustion (n-propanol, n-butanol, n-p...
A recent chemical kinetic mechanism (Sarathy et al., 2012) describing the low temperature oxidation ...
The combustion of n-butanol has received significant interest in recent years, because of its potent...
The aim of this paper is to analyze and discuss a kinetic mechanism able to describe the low tempera...
Butanol is a fuel that has been proposed as a bio-derived alternative to conventional petroleum deri...
Butanol is a very promising biofuel candidate that has received considerable attention from the comb...
This work (and the companion paper, Part II) presents new experimental data for the combustion of n-...
A kinetic model is developed to describe combustion of isomers of butanol—n-butanol (n-C4H9OH), secb...
With regard to the importance of butanol as a potential replacement or additive to fossil transporta...
The low-temperature oxidation chemistry of linear and branched alkanes is discussed with the aim of ...
This work presents new experimental data for n-C3-C6 alcohol, combustion (n-propanol, n-butanol, n-p...
A recent chemical kinetic mechanism (Sarathy et al., 2012) describing the low temperature oxidation ...
The combustion of n-butanol has received significant interest in recent years, because of its potent...
The aim of this paper is to analyze and discuss a kinetic mechanism able to describe the low tempera...
Butanol is a fuel that has been proposed as a bio-derived alternative to conventional petroleum deri...
Butanol is a very promising biofuel candidate that has received considerable attention from the comb...
This work (and the companion paper, Part II) presents new experimental data for the combustion of n-...
A kinetic model is developed to describe combustion of isomers of butanol—n-butanol (n-C4H9OH), secb...
With regard to the importance of butanol as a potential replacement or additive to fossil transporta...
The low-temperature oxidation chemistry of linear and branched alkanes is discussed with the aim of ...
This work presents new experimental data for n-C3-C6 alcohol, combustion (n-propanol, n-butanol, n-p...
A recent chemical kinetic mechanism (Sarathy et al., 2012) describing the low temperature oxidation ...
The combustion of n-butanol has received significant interest in recent years, because of its potent...