Vivek Boddapati scite author profile

The pyrolysis of propane plays an important role in determining the combustion properties of natural gas mixtures and offers insight into the cracking patterns of larger fuels. This work investigates propane pyrolysis behind reflected shock waves with a multiwavelength laser-absorption speciation technique. Nine laser wavelengths, sensitive to key pyrolysis species, were used to measure absorbance time histories during the decomposition of 2% propane in argon between 1022 and 1467 K, 3.7-4.3 atm. Absorbance models were developed at each diagnostic wavelength to interrogate common initial conditions, and time histories of all major species are reported at 1250, 1290, 1330, 1370, and 1410 K. Nearly complete carbon recovery observed at lower temperatures enabled the inference of hydrogen formation from atomic conservation, while decaying carbon recovery at high temperatures suggests the formation of allene and 1-butene. The results show systematically faster pyrolysis than predicted by kinetic modeling and motivate further study into the kinetics of propane pyrolysis.

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Shock tube study of ethanol pyrolysis II: Rate constant measurements and modeling

Choudhary

Boddapati

Clees

et al. 2021

Combustion and Flame

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Shock tube study of ethanol pyrolysis I: Multi-species time-history measurements

Choudhary

Boddapati

Clees

et al. 2021

Combustion and Flame

View full text Add to dashboard Cite

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Vivek Boddapati

A novel approach for conditional measurement of droplet size distribution within droplet clusters in sprays

The pyrolysis of propane

Shock tube study of ethanol pyrolysis II: Rate constant measurements and modeling

Shock tube study of ethanol pyrolysis I: Multi-species time-history measurements

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