NUMERICAL SIMULATIONS AND OPTIMIZATIONS FOR TURBINE-RELATED CONFIGURATIONS
Release time:2021-03-16
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期刊论文
First Author:
Yang Jinguang
Correspondence Author:
Zhang, Min,Liu, Yan
Date of Publication:
2021-02-21
Journal:
THERMAL SCIENCE
Document Type:
J
Volume:
24
Issue:
1
Page Number:
367-378
ISSN No.:
0354-9836
Key Words:
SCFD; optimization; numerical simulation; turbine flow and heat transfer
Abstract:
In order to accelerate the numerical simulation and optimization of gas turbine-related configurations, a source based computational fluid dynamics (SCFD) approach is developed for flow and heat transfer simulations. Different sources depending on the fluid porosity at each grid node in the computational domain are introduced to the continuity, momentum, energy and turbulence model equations, so that both the fluid and solid regions can be solved as one region. In the present paper, test cases including a ribbed channel and a winglet shrouded turbine cascade with tip injection are investigated using the SCFD and CFD with body-fitted meshes. Impacts of grid clustering and turbulence model equation sources on the SCFD precision are examined. Numerical results show that the SCFD predicts consistent aero-thermal performance with the fluid dynamics with body-fitted meshes and experiments. The validated SCFD scheme is then employed in a response surface optimization of tip jet holes on the winglet shroud tip. A jet arrangement with the minimum energy loss and injection mass-flow rate is obtained, indicating that source based predictions can be applied to the preliminary aero-thermal design of turbine blades.
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