Inhalt des Dokuments
Publikationen
2021 | |
Beiträge zu Sammlungen: | |
---|---|
556. |
Identification of a stochastic Hopf bifurcation from stationary measurement data of a turbulent flow
In Springer eBook Collection
, , und , Editor,
Springer Proceedings in Physics Band 267
aus
Seite 153 - 158.
Verlag: Springer, Cham
2021
|
Verhandlungen: | |
555. |
Nonlinear analysis of self-sustained oscillations in an annular combustor model with electroacoustic feedback
Band 38
, 4
aus Proceedings of the Combustion Instittue
Verlag: Elsevier,
2021
|
554. |
NOx Emission Modelling for Lean Premixed Industrial Combustors With a Diffusion Pilot Burner
Band Volume 3A: Combustion, Fuels, and Emissions
aus Turbo Expo: Power for Land, Sea, and Air
2021
DOI: 10.1115/GT2021-59071
|
2020 | |
Begutachtete Artikel: | |
553. |
Anchoring of turbulent premixed hydrogen/air flames at externally heated walls
International Journal of Hydrogen Energy,
45(56):32547--32561
Oktober
2020
ISSN: 03603199
|
552. |
Effect of inlet and outlet boundary conditions on rotating detonation combustion
Combustion and Flame,
216:300-315
Juni
2020
ISSN: 0010-2180
|
551. |
Wake structures and surface patterns of the DrivAer notchback car model under side wind conditions
energies,
13:18
Januar
2020
|
550. |
Advances toward a lightweight, variable fidelity wake simulation tool
Journal of Physics: Conference Series,
1618:052070
2020
|
549. |
Aerodynamic effects of Gurney Flaps on the rotor blades of a research wind turbine
Wind Energy Science,
5(4):1645--1662
2020
|
548. |
Aerodynamic investigation of guide vane configurations downstream a rotating detonation combustor
Journal of Engineering for Gas Turbines Power,
:24
2020
|
547. |
An empirical model for stagnation pressure gain in rotating detonation combustors (in press)
Proceedings of the Combustion Institute,
2020
|
546. |
Autoignition in stratified mixtures for pressure gain combustion (in press)
Proceedings of the Combustion Institute,
2020
|
545. |
Blade element momentum theory overestimating wind turbine loads? – An aeroelastic comparison between OpenFAST’s AeroDyn and QBlade’s Lifting-Line Free Vortex Wake method”
Wind Energy Science, vol. 5, pp. 721–743,(2020),
5(5):721-743
2020
|