Modeling of high-speed, methane-air, turbulent combustion, Part II: Reduced methane oxidation chemistry
A reduced, 12-species reaction model (FFCMy-12) is proposed for modeling high-speed
turbulent methane flames at high Karlovitz numbers. The model was derived from an early …
turbulent methane flames at high Karlovitz numbers. The model was derived from an early …
[HTML][HTML] On the nature of transverse waves in marginal hydrogen detonation simulations using boundary layer loss modeling and detailed chemistry
Historically, it has been a challenge to simulate the experimentally observed cellular
structures and marginal behavior of multi-dimensional, thin-channel hydrogen detonations …
structures and marginal behavior of multi-dimensional, thin-channel hydrogen detonations …
Foundational Fuel Chemistry Model 2–iso-Butene chemistry and application in modeling alcohol-to-jet fuel combustion
Abstract The Hybrid Chemistry (HyChem) approach is applied to model the combustion
chemistry of Gevo's alcohol-to-jet (ATJ) fuel, a conventional Jet A fuel, and their blends. The …
chemistry of Gevo's alcohol-to-jet (ATJ) fuel, a conventional Jet A fuel, and their blends. The …
Experimental and numerical investigation of shock wave-based methane pyrolysis for clean H production
Shock wave reforming, or the use of shock waves to achieve the necessary high-
temperature conditions for thermal cracking, has recently gained commercial interest as a …
temperature conditions for thermal cracking, has recently gained commercial interest as a …
Efficient combustion kinetic parameter optimization via variational inference
This study presents a novel method for optimizing combustion kinetic mechanisms using
variational inference (VI), addressing the longstanding challenge of balancing accuracy and …
variational inference (VI), addressing the longstanding challenge of balancing accuracy and …