The effects of miniature vortex generator(s) on flow and heat transfer characteristics in turbulence boundary layer
Forschungsschwerpunkt:
heat transfer enhancement, turbulent flow control, numerical simulation
Aktuelles Forschungsprojekt:
fuel atomisation, two-phase flow, combustion
Wissenschaftlicher Betreuer:
Dr.-Ing. Steffen Schmidt
Veröffentlichungen
2024
Zeitschriftenartikel
Jiao, Yu; Schmidt, Steffen J.; Adams, Nikolaus A.: An all-Mach consistent numerical scheme for simulation of compressible multi-component fluids including surface tension, cavitation, turbulence modeling and interface sharpening on compact stencils. Computers & Fluids 274, 2024, 106186 mehr…BibTeX
Volltext (
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Jiao, Yu; Schmidt, Steffen J.; Adams, Nikolaus A.: Effect of gas cavity size and eccentricity on shock interaction with a cylinder at near-critical conditions. Physics of Fluids 36 (9), 2024 mehr…BibTeX
Volltext (
DOI
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Jiao, Yu; Schmidt, Steffen J.; Adams, Nikolaus A.: Simulating shock interaction with a cavity-embedded cylinder/droplet using a real-fluid hybrid scheme at near-critical conditions. Physical Review Fluids 9 (7), 2024 mehr…BibTeX
Volltext (
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2022
Konferenzbeiträge
Jiao, Y.; Schmidt, S.; Adams, N.: Large Eddy Simulation of Primary Breakup Processes in Dual Fuel Internal Combustion Engines Using a Fully Compressible Multicomponent Approach. 8th European Congress on Computational Methods in Applied Sciences and Engineering, CIMNE, 2022 mehr…BibTeX
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