High-temperature laminar flame speed measurements of ammonia/methane blends behind reflected shock waves
Laminar flame speeds of ammonia and methane blends diluted in airgon (79% Ar/21% O 2)
were measured for the first time at temperatures above 500 K. Experimental temperatures …
were measured for the first time at temperatures above 500 K. Experimental temperatures …
Experimental measurements of n-heptane flame speeds behind reflected shock waves with variable extents of pre-flame auto-ignition chemistry
The flame speeds of premixed stoichiometric n-heptane/21% O 2-79% Ar (so-called
“airgon”) flames with different extents of pre-flame auto-ignition chemistry were …
“airgon”) flames with different extents of pre-flame auto-ignition chemistry were …
Measurements of high-temperature H2 laminar flame speeds across a wide range of pressure and Ar dilution for improved comparative evaluation of chemical kinetic …
Laminar flame speeds of H 2-O 2-Ar mixtures were experimentally studied in a shock tube at
high temperatures between 501 K and 915 K. To better evaluate and constrain chemical …
high temperatures between 501 K and 915 K. To better evaluate and constrain chemical …
Flame kinetics at scramjet-engine-relevant conditions: Role of prompt dissociation of weakly-bound radicals
A Kokernak, J Mathew, R Sivaramakrishnan… - Combustion and …, 2025 - Elsevier
Combustion in high-speed ram-based propulsion engines occurs under distinct
thermodynamic conditions of high reactant temperatures (greater than 1000 K) and relatively …
thermodynamic conditions of high reactant temperatures (greater than 1000 K) and relatively …
Effect of elevated temperatures (550–860 K) on the laminar flame speeds of methane/hydrogen blends
Experimental determination of laminar flame speeds was performed for methane/hydrogen
mixtures in a 79% Ar/21% O 2 oxidizer (referred to as “airgon”) at 1 atm. The shock-tube …
mixtures in a 79% Ar/21% O 2 oxidizer (referred to as “airgon”) at 1 atm. The shock-tube …