stall flutter
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2022 ◽  
Vol 109 ◽  
pp. 103472
Author(s):  
Zhen Chen ◽  
Zhiwei Shi ◽  
Sinuo Chen ◽  
Zhangyi Yao

2022 ◽  
Author(s):  
Hunter C. Ringenberg ◽  
John A. Farnsworth

2021 ◽  
pp. 259-278
Author(s):  
Fernando Sisto
Keyword(s):  

Author(s):  
Renan Francisco Soares ◽  
Ilyas Karasu ◽  
Bharath Ganapathisubramani

As stall flutter has relevant engineering implications, such as in blades of wind turbine and HALE (highaltitude long-endurance aircraft). This work presents the experimental investigation of rigid wing setup in a closed-circuit wind tunnel having 2.1 m × 1.5 m test section. The experimental campaign reached stable and symmetrical LCO within the freestream range from 9 m/s up to 14 m/s (1.69 × 105 < Re < 2.63 × 105 ). Two techniques were used for position tracking: one mechatronic and one image-based. The latter used ‘shakethe-box’ method applied to a body, which has proven a successful approach as a non-intrusive tool.


2021 ◽  
Author(s):  
Vaclav Slama ◽  
Bartolomej Rudas ◽  
Jiri Ira ◽  
Ales Macalka ◽  
Petr Eret ◽  
...  

2021 ◽  
Vol 100 ◽  
pp. 103176
Author(s):  
A. Benaissa ◽  
S. Biskri ◽  
L. Goyaniuk ◽  
D. Poirel ◽  
N. Nait Bouda
Keyword(s):  

Author(s):  
Vaclav Slama ◽  
Bartolomej Rudas ◽  
Jiri Ira ◽  
Ales Macalka ◽  
Petr Eret ◽  
...  

Abstract Stall flutter of long blades influences the operation safety of the large steam turbines in off-design conditions. As angles of attack are typically high, a partial or complete separation of the flow from the blade surface occurs. The prediction of stall flutter of turbine blades is a crucial task in the design and development of modern turbomachinery units and reliable design tools are necessary. In this work, aerodynamic stability of a linear turbine blade cascade is tested experimentally at high angle of attack +15°, Ma = 0.2 and the reduced frequency of 0.38. Controlled flutter testing has been performed in a travelling wave mode approach for the torsion with the motion amplitude of 0.5°. In addition, ANSYS CFX with SST k-ω turbulent model is used for URANS simulations of a full-scale computational domain. A separation bubble formed on suction surface near the leading edge has been found in CFD results for each blade. Excellent agreement between the experimental and numerical results in stability maps has been achieved for this case under investigation. This is encouraging and both experimental and numerical techniques will be tested further.


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