Computational diagnostics for flame acceleration and transition to detonation in a hydrogen/air mixture

Computational diagnostics for flame acceleration and transition to detonation in a hydrogen/air mixture

A new computational diagnostic method for pressure-induced compressibility is proposed by projecting its local contribution to the chemical explosive mode (CEM) in the chemical explosive mode analysis (CEMA) framework. The new method is validated for the study of detonation development during the de...

Fuld beskrivelse

Bibliografiske detaljer
Main Authors:	Lai, S, Tang, S, Xu, C, Sekularac, N, Fang, X
Format:	Journal article
Sprog:	English
Udgivet:	Elsevier 2023

Lignende værker

Flame acceleration and transition to detonation in a pre-/main- chamber combustion system
af: Lai, S, et al.
Udgivet: (2022)

Impact of Radiative Losses on Flame Acceleration and Deflagration to Detonation Transition of Lean Hydrogen-Air Mixtures in a Macro-Channel with Obstacles
af: Gautham Krishnamoorthy, et al.
Udgivet: (2018-12-01)

Effect of activation energy on detonation re-initiation behaviors in hydrogen-air mixtures
af: Tang, S, et al.
Udgivet: (2024)

Large eddy simulation investigation of flame acceleration and deflagration to detonation transition of methane‐air mixture in rectangular channel
af: Yongyao Zhao, et al.
Udgivet: (2023-03-01)

Deflagration-to-Detonation Transition in Stochiometric Propane–Hydrogen–Air Mixtures
af: Igor O. Shamshin, et al.
Udgivet: (2022-11-01)

Pulsating one-dimensional detonation in ammonia-hydrogen–air mixtures
af: Zhu, R, et al.
Udgivet: (2022)

Dynamic behavior and flame acceleration of outwardly expanding flame in hydrogen-air mixture
af: Toshiyuki KATSUMI, et al.
Udgivet: (2016-02-01)

Simulation of Hydrogen-Air-Diluents Mixture Combustion in an Acceleration Tube with FlameFoam Solver
af: Mantas Povilaitis, et al.
Udgivet: (2021-09-01)

Numerical method to simulate detonative combustion of hydrogen-air mixture in a containment
af: D. Kim, et al.
Udgivet: (2019-01-01)

Intrinsic transition mechanism to detonation of gaseous laminar flames in tubes
af: Clavin, Paul
Udgivet: (2023-12-01)

An Elementary Model for a Self-Accelerating Outward Propagating Flame Subject to the Rayleigh–Taylor Instability: Transition to Detonation
af: Leonid Kagan, et al.
Udgivet: (2020-10-01)

High speed turbulent deflagrations and transition to detonation in H2-air mixtures/
af: Lee, John H. S., et al.

Influence of Gaseous Hydrogen Addition on Initiation of Rotating Detonation in Liquid Fuel–Air Mixtures
af: Jan Kindracki, et al.
Udgivet: (2020-09-01)

Exergy Analysis in Hydrogen-Air Detonation
af: Abel Rouboa, et al.
Udgivet: (2012-01-01)

Numerical study on the effects of obstacle shape and thickness on deflagration-to-detonation transition in hydrogen–air mixtures with a transverse concentration gradient
af: Mohammad Hossein Shamsaddin Saeid, et al.
Udgivet: (2025-02-01)

Numerical Simulation of the Transition to Detonation in a Hydrogen–Air Mixture Due to Shock Wave Focusing on a 90-Degree Wedge
af: Jose Bermudez De La Hoz, et al.
Udgivet: (2025-01-01)

Criticality for Oblique Detonation Waves Induced by a Finite Wedge in a Hydrogen–Air Mixture
af: Jianxiu Qin, et al.
Udgivet: (2023-05-01)

Numerical Simulation of the Deflagration-to-Detonation Transition in Inhomogeneous Mixtures
af: Florian Ettner, et al.
Udgivet: (2014-01-01)

Numerical Investigation of the Effects of Diffusion Time on the Mechanisms of Transition from a Turbulent Jet Flame to Detonation in a H<sub>2</sub>-Air Mixture
af: Mohammad Hossein Shamsaddin Saeid, et al.
Udgivet: (2023-11-01)

Nonlinear evolution and acceleration of unstable fuel-lean hydrogen/air flame at normal and cryogenic temperatures
af: Yang, L, et al.
Udgivet: (2025)

Detonation transition process caused by interaction of convex flame with planar shock wave
af: Shinichi MAEDA, et al.
Udgivet: (2017-06-01)

Parametric studies of deflagration-to-detonation transition in a pre-chamber/main-chamber system
af: Zhu, R, et al.
Udgivet: (2023)

Introduction to physics and chemistry of combustion : explosion, flame, detonation /
af: 240617 Liberman, Michael A
Udgivet: (2008)

Effect of pipe configurations on flame propagation of hydrocarbons–air and hydrogen–air mixtures in a constant volume
af: Emami, S.D., et al.
Udgivet: (2016)

Numerical study of pressure profiles in an annular combustor and a manifold during continuous spin detonation of nonstoichiometric hydrogen-air mixtures
af: Simonov Evgeny
Udgivet: (2023-01-01)

Turbulent Flame Propagation in Hydrogen-Air and Methane-Air Mixtures in the Field of Synthetic Turbulence: Direct Numerical Simulation
af: Valentin Y. Basevich, et al.
Udgivet: (2023-03-01)

Effect of activation energy on detonation cellular dynamics and reinitiation behaviors
af: Tang, S, et al.
Udgivet: (2025)

Conditional source-term estimation evaluations for partially-premixed flames
af: Sekularac, N
Udgivet: (2023)

Effects of Ozone Addition on Multi-Wave Modes of Hydrogen–Air Rotating Detonations
af: Yang Wang, et al.
Udgivet: (2023-05-01)

Initiation of detonation wave in a non-uniform hydrogen-air premixed gas
af: Shinichi MAEDA, et al.
Udgivet: (2016-01-01)

Multi-stage nozzle-shape optimization for pulsed hydrogen–air detonation combustor
af: Francesco Ornano, et al.
Udgivet: (2017-02-01)

Numerical Investigation of the Oblique Detonation Waves and Stability in a Super-Detonative Ram Accelerator
af: Zhanlin Feng, et al.
Udgivet: (2023-06-01)

Detonation initiation in a channel via facing injection of flame jets
af: Shinichi MAEDA, et al.
Udgivet: (2017-01-01)

Effect of Ignition Energy and Hydrogen Addition on Laminar Flame Speed, Ignition Delay Time, and Flame Rising Time of Lean Methane/Air Mixtures
af: Minh Tien Nguyen, et al.
Udgivet: (2022-03-01)

Investigation into the Computational Analysis of High–Speed Microjet Hydrogen–Air Diffusion Flames
af: Ali Cemal Benim
Udgivet: (2024-09-01)

Numerical analysis of detonation stability in a rotating detonation engine fuelled with biogas and hydrogen /
af: Mohammad Nurizat Rahman, 1995-, author 615727, et al.
Udgivet: (2022)

Numerical analysis of detonation stability in a rotating detonation engine fuelled with biogas and hydrogen /
af: Mohammad Nurizat Rahman, 1995-, author 615727
Udgivet: (2022)

Dynamic behavior and flame acceleration of spherically expanding hydrogen flames under the low-pressure conditions
af: Toshiyuki KATSUMI, et al.
Udgivet: (2023-02-01)

Numerical Study on the Two-Phase Detonation Flow Field of Coal Powder-Hydrogen in a Rotating Detonation Engine
af: Weng Chunsheng, Ni Xiaodong, Xu Han
Udgivet: (2024-04-01)

Measurements of the laminar flame speed of premixed, hydrogen-air-argon stagnation flames
af: Antoine Durocher, et al.
Udgivet: (2021-09-01)