Experimental Study of the Plunging Motion with Unsteady Wind Tunnel Wall Interference Effects

Soltani, Mohammad Reza; Marzabadi, F. Rasi; Mohammadi, Zohreh

doi:10.1111/j.1747-1567.2010.00696.x

Cited by 8 publications

(4 citation statements)

References 27 publications

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“…This leads to further delay in transition onset during the pitchup. This is similar to the effect of reduced frequency on the load hysteresis loop that has been previously reported [9,15,16,19]. Also, for oscillation beyond αss (αm = 10 deg), the hysteresis loop for transition onset locations is larger.…”

Section: Resultssupporting

confidence: 88%

“…Also, a new RMS parameter is defined based on the time-frequency analysis of the hot-film signals which could be employed for unsteady transition and relaminarization onset detection. This work follows the previous investigations of Soltani and co-workers [15][16][17][18][19] on explaining the aerodynamic behavior of the current airfoil model in steady and unsteady conditions.…”

Section: Nomenclaturementioning

confidence: 57%

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Time-Frequency Analysis and Transitional Boundary Layer Investigation over a Pitching Airfoil

2020

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Transitional boundary layer over a pitching airfoil at low Reynolds number (Re = 2.7×10 5) is experimentally investigated through the space-frequency and time-frequency analyses of hot-film signals. Boundary layer events are visualized based on the spacefrequency and time-frequency plots. The precursor phenomena for turbulent as well as fully separated flows are presented based on the time-frequency analysis. A new technique based on the time-frequency analysis of hot-film signals is presented to measure the transition onset as well as the relaminarization locations. This technique is based on the analysis of highfrequency disturbances of the measured data. Special attention is focused on the spatial/temporal progression of the transition onset and the relaminarization points, compared to the static values, for different oscillation frequencies and amplitudes. Investigations are performed prior to, within and beyond the static stall angle of attack conditions. The results obtained by the new technique will be discussed and compared with the observations from the previous investigators.

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Section: Resultssupporting

confidence: 88%

Section: Nomenclaturementioning

confidence: 57%

Time-Frequency Analysis and Transitional Boundary Layer Investigation over a Pitching Airfoil

2020

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“…More relevant technical progresses about the influence mechanism of turbulence modeling operation can also be found from Ref. [12][13][14] When discussing the result comparison of turbulence modeling algorithms to be investigated in this article, we can see that more researchers began paying their high attentions on this new theoretical domain. For example, Hong 15 have used fuzzy measures for a correlation coefficient of numbers under TW (the weakest t-norm)-based arithmetic operations.…”

Section: Introductionmentioning

confidence: 99%

Experimental Result Comparisons of Curve Fitting Algorithms on Fluid Path Lines Modeling in Strengthen Grinding Flow Field

Liang

Liu

et al. 2014

Exp Techniques

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Stirred turbulence with abrasive particles were widely employed for strengthen grinding in mechanical industries, therefore, the dynamic characteristic of turbulent flow comes up as a key element influencing grinding mechanism and operation performance in a long term. In this experimental research, we use flow path lines (turbulent path lines) to demonstrate the specific moving process of turbulent flow during strengthen grinding operation, which can be clearly identified by the real-time spatial movements of those abrasive particles, therefore a visual experimental approach can be provided to analyze the three-dimensional motion characteristics of strengthen grinding turbulence. The free movements of abrasive particles in three-dimensional grinding flow field exert an important influence on the geometrical properties of fluid path lines to be fitted, and the influence mechanism caused by those fluid path modeling algorithms should be studied quantitatively in detail. In this article, after extracting the image coordinates of those selected abrasive particles denoted as physical control points, and determining the three-dimensional moving path of turbulent flow by using imaging head array mounted on turbulence monitoring platform, several typical algorithms of curve fitting were sequentially employed for constructing the spatial path lines of turbulent flow, using coordinate transformation and flow motion vector computations. On the basis of computing the newly proposed curve mathematical properties, we made an experimental result comparison of those curve fitting algorithms on the established fluid path models. With several proposed experimental suggestions concerning turbulence inspection, flow path modeling processes and their correlated experimental mechanisms, the performance inspection of strengthen grinding turbulence experiments will be highly facilitated and remarkably optimized. Thereafter, new ideas for studying strengthen grinding process in future were also provided.

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“…Aeroelastic experiments in wind tunnels are an essential part of the science and practice of aeroelasticity. They are conducted in different areas, for example envelope clearance test for new aircraft designs, active control and suppression of aeroelastic responses, unsteady aerodynamics, and flutter and divergence behavior investigation . For these purposes, different models and mounting systems were used, for example semi‐span models cantilever mounted to the tunnel sidewall, full‐span models mounted on a cable system, and rigid wings mounted on a two‐degree of freedom (2‐DOF) mounting system.…”

Section: Introductionmentioning

confidence: 99%

A Novel Experimental Setup for Multiparameter Aeroelastic Wind Tunnel Tests

2012

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A comprehensive experimental approach to the problem of determining static stability boundary (divergence) or dynamic stability boundary (flutter) of a given multiparameter aeroelastic system in a low speed wind tunnel is presented. The experimental setup with the corresponding measurement algorithm is based on the well‐known theoretical model of an elastically supported typical wing section with two degrees of freedom. The design of the experimental system makes it possible to vary structural parameters within the determined parameter space. An automated measurement algorithm for determination of static or dynamic stability boundary by monitoring the aeroelastic system response to an initial impulse in the time domain is developed. The multiparameter experimental results of the case study using a NACA 0012 airfoil are compared to the analytical solutions of the theoretical model. The comparison shows that the experimental setup represents a reliable platform for aeroelastic wind tunnel test purposes. In addition, series of experiments were conducted to investigate the effect of airfoil thickness distribution on dynamic and static stability boundary. The results are compared to those of the NACA 0012 airfoil.

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Experimental Study of the Plunging Motion with Unsteady Wind Tunnel Wall Interference Effects

Cited by 8 publications

References 27 publications

Time-Frequency Analysis and Transitional Boundary Layer Investigation over a Pitching Airfoil

Time-Frequency Analysis and Transitional Boundary Layer Investigation over a Pitching Airfoil

Experimental Result Comparisons of Curve Fitting Algorithms on Fluid Path Lines Modeling in Strengthen Grinding Flow Field

A Novel Experimental Setup for Multiparameter Aeroelastic Wind Tunnel Tests

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