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Chapter and Conference Paper
Enhancement of the DDT Process with Energetic Solid Particle
In the pulse detonation engine development, it is believed that the presence of solid particles can rapidly accelerate the flame speed and facilitate a rapid transition to the detonation. In this study, numeri...
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Chapter and Conference Paper
Numerical Study on a Cycle of Liquid Pulse Detonation Engines
A typical cycle of a liquid pulse detonation engine (PDE) often involves three main processes, which are injection and evaporation process, deflagration-to-detonation transition process (DDT), and detonation p...
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Chapter and Conference Paper
Crumpling Behavior of Graphene Oxide in Jet A-1 Vapor in Air and Its Effects on Combustion Process
This paper presents the crumpling behavior of graphene oxide (GO) nanosheets in Jet A-1 vapor in air and its effects in Jet A-1 fuel on the combustion process. The results indicate that a longer vaporized dura...
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Chapter
On the Investigation of Detonation Re-initiation Mechanisms and the Influences of the Geometry Confinements and Mixture Properties
The topic of detonation re-initiation is studied through both experimental measurements and numerical simulations using a bifurcation channel and the detonation research facilities in Temasek Laboratories. The...
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Chapter and Conference Paper
Model Order Reduction for Reacting Flows: Laminar Gaussian Flame Applications
A model reduction technique based on Galerkin projection, proper orthogonal decomposition (POD), and the discrete empirical interpolation method (DEIM) is developed for chemically reacting flow applications. T...
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Chapter and Conference Paper
Numerical Simulation of Combustion Process for Two-Phase Fuel Flows Related to Pulse Detonation Engines
In this study, combustion process is simulated for two-phase fuel flows (droplets of the liquid fuel and gas mixture of the fuel vapor and oxygen) using a combination of Lagrangian–Eulerian approaches. The Lag...