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WEBINAR: Advancing Rotating Detonation Engines Using CFD
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In this webinar, we’ll discuss the tools CONVERGE CFD
software offers to simulate RDEs, including autonomous
meshing with Adaptive Mesh Refinement, a fully coupled
detailed chemistry solver, high-fidelity RANS and LES
turbulence models, and excellent parallel scaling. We'll
demonstrate how to apply these features to model hydrogen-
air, methane-oxygen, and ethylene-air RDEs.
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| Date: |
May 8, 2024
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| Location: |
https://register.gotowebinar.com/register/7755742152737442648?source=cfd-online
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| Contact Email: |
tcook@convergecfd.com
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| Organizer: |
Convergent Science
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| Application Areas: |
Electronics Cooling, Automotive, Aerospace, Oil, Gas & Petrochemical, General CFD, Fuel Cells, Computer Aided Design (CAD), Wind Turbines, Train Aerodynamics
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| Special Fields: |
Heat Transfer, Combustion, Finite Element Methods, Grid Generation, Fluid-Structure Interaction, Flows with Particles, Aerodynamics, Compressible Flows, Fluid Mechancis, Multiphysics, CAD/CFD Integration, Design, Discrete Simulation of Fluid Dynamics , Cloud Computing
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| Softwares: |
CONVERGE
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| Type of Event: |
Online Event, International
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| Description: |
Presented by:
Nitesh Attal, Principal Engineer - Applications
Convergent Science
Angela Wu, Research Engineer
Convergent Science
Rotating detonation engines (RDEs) offer a number of
advantages over deflagrative combustion devices, including
faster heat release, higher thermal efficiency, and greater
thrust. These benefits have led to significant interest in
using RDEs for propulsion in various types of aircraft and
rockets. In an RDE, fuel and air are injected separately
into an annular chamber. Once combustion is initiated, one
or more continuous detonation waves propagate azimuthally
around the chamber, providing a near-steady source of high-
frequency thrust without the need to initiate detonation
repeatedly. In practice, RDEs exhibit losses such as
parasitic combustion and contact burning, which affect the
stability of the detonation waves and the thermal efficiency
of the engine. Computational fluid dynamics (CFD) can offer
insight into the combustion dynamics of RDEs and aid in
design optimization to prevent these losses. In this
webinar, we’ll discuss the tools CONVERGE CFD software
offers to simulate RDEs, including autonomous meshing with
Adaptive Mesh Refinement, a fully coupled detailed chemistry
solver, high-fidelity RANS and LES turbulence models, and
excellent parallel scaling. We'll demonstrate how to apply
these features to model hydrogen-air, methane-oxygen, and
ethylene-air RDEs.
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Event record first posted on January 16, 2024, last modified on January 17, 2024
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