Application Areas: |
Automotive, Aerospace, Oil, Gas & Petrochemical, General CFD, Fuel Cells, Computer Aided Design (CAD), Train Aerodynamics
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Presented by:
Adam Klingbeil, Senior Engineer – Advanced Engine R&D
Wabtec Corporation
Sameera Wijeyakulasuriya, Project Manager
Convergent Science
With global efforts underway to transition to carbon-free
mobility, hydrogen (H2) is receiving significant interest
for its potential as an energy carrier. Several OEMs have
already developed H2-powered internal combustion engines
(H2ICEs), and auxiliary technologies around H2ICEs are being
investigated to enable broader commercialization. Auxiliary
technologies such as flame arrestors and durable storage
tanks are necessary to ensure the safety of H2 combustion
devices. Other ongoing research efforts are dedicated to
studying processes that promote the proper operation of H2
devices, such as H2 injector flows and tank
filling/emptying. CFD is an effective tool for designing H2-
powered ICEs and gas turbines, as well as relevant auxiliary
technologies. CFD provides insight into the governing
physics of these systems and offers an economical method to
test possible solutions and methods. However, H2 poses a
number of modeling challenges: high injection velocities,
low density, high mass diffusivity in air, wide flammability
range, high burning velocities, and low ignition energy. In
this webinar, we will demonstrate how CONVERGE CFD software
is uniquely suited to address these challenges for a variety
of applications, including flame arrestors, self-ignition of
H2 tank leakages, H2 tank filling and emptying, H2 fuel
injection, rotating detonation engines, and H2ICEs. We’ll
take a closer look at a specific application of CONVERGE for
analyzing a large-bore, medium-speed locomotive engine that
is being modified for dual-fuel H2-diesel operation. The
analysis explores the effect of temperature and compression
ratio on the combustion event. Furthermore, additional
analysis is investigating undesirable combustion events in
the intake port.
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