Aromatic hydrocarbons are important components of petroleum-based transportation fuels,
biomass, coal, and solid waste, etc. The reaction kinetics of aromatic hydrocarbons largely …

Abstract Co-firing hydrogen (H 2) with hydrocarbon fuels is widely seen as an effective
pathway to reduce soot emissions. Nevertheless, the soot-reducing potential of H 2 can be …

This paper examines the evolution of particle size and morphology of plasma-synthesized
carbonaceous nanoparticles for various reactants, reactant concentrations, reactor …

Molecular beam experiments together with electronic structure calculations provide the first
evidence of a complex network of elementary gas-phase reactions culminating in the bottom …

This work develops a detailed chemical kinetic model for Polycyclic Aromatic Hydrocarbon
(PAH) chemistry that builds on a chemical model for gasoline surrogates by Cai et al.[Proc …

In this research, 3D CFD simulations are conducted for a compression ignition engine
fuelled with D100 (diesel), D80| BD20 (80% diesel| 20% biodiesel), D75| BD20| G5 (75 …

Soot formation of n-heptane is experimentally and numerically studied in low-strain rate (K=
50 s− 1) counterflow soot formation (SF) flames. Flame temperatures and soot volume …

Macroscopic transition processes of soot formation for 1-butene, isobutene, n-butane and
isobutane counterflow diffusion flames from sooting-free to heavy-sooting were studied by …

Fuel-rich oxidation of three typical gasoline surrogate components, toluene, isooctane, and
n-heptane, was investigated in an atmospheric-pressure flow reactor at mean gas …

A comprehensive microkinetic mechanism for the oxidative coupling of methane (OCM) was
developed by using the model La2O3–CeO2 catalyst at industrially relevant conditions up to …