Author
L H Tanner
Bio: L H Tanner is an academic researcher. The author has contributed to research in topics: Skin friction line & Leading edge. The author has an hindex of 1, co-authored 1 publications receiving 58 citations.
Topics: Skin friction line, Leading edge
Papers
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TL;DR: In this paper, a laser beam focused at position x, reflects partly from the oil surface and partly from a metal substrate, and the reflected beams are focused on a photocell and the pen recorder output gives an interferometric record of y against t.
Abstract: An oil film is placed on a surface over which gas is flowing, and moves under the influence of skin friction. The skin friction meter to be described makes use of the fact that, at time t after the start of the flow with skin friction tau , the thickness y of oil of viscosity mu at a point x close downstream of the leading edge is y= mu x/ tau t. A laser beam focused at position x, reflects partly from the oil surface and partly from the metal substrate. The reflected beams are focused on a photocell and the pen recorder output gives an interferometric record of y against t. To permit accurate setting of the position x, a second laser beam is used which is set at the upstream oil edge, x=0. The results obtained show good agreement with theory, repeatability and consistency. The meter can be used with any polished metal surface, whether flat or curved, and provides versatile and potentially accurate method for skin friction measurement.
59 citations
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TL;DR: In this article, three relatively modern categories of skin-friction measurement techniques are broadly classified as microelectromechanical systems (MEMS)-based sensors, oil-film interferometry, and liquid crystal coatings.
384 citations
01 Dec 1996
TL;DR: In this paper, the Fringe-Imaging Skin Friction technique (FISF) has been extended to handle three-dimensional flow fields with mild shear gradients, and a PC-based application has been written that has made it possible to obtain high resolution skin friction field measurements in a reasonable period of time.
Abstract: Various aspects and extensions of the Fringe-Imaging Skin Friction technique (FISF) have been explored through the use of several benchtop experiments and modeling. The technique has been extended to handle three-dimensional flow fields with mild shear gradients. The optical and imaging system has been refined and a PC-based application has been written that has made it possible to obtain high resolution skin friction field measurements in a reasonable period of time. The improved method was tested on a wingtip and compared with Navier-Stokes computations. Additionally, a general approach to interferogram-fringe spacing analysis has been developed that should have applications in other areas of interferometry. A detailed error analysis of the FISF technique is also included.
80 citations
01 Jan 1993
TL;DR: In this article, a new oil-fringe imaging fkin friction (FISF) technique is presented to measure skin friction on wind tunnel models, where lines of oil are applied on surfaces that connect the intended sets of measurement points, and then a wind tunnel is run so that the oil thins and forms interference fringes that are spaced proportional to local skin friction.
Abstract: A new oil-fringe imaging fkin friction (FISF) technique to measure skin friction on wind tunnel models is presented In the method used to demonstrate the technique, lines of oil are applied on surfaces that connect the intended sets of measurement points, and then a wind tunnel is run so that the oil thins and forms interference fringes that are spaced proportional to local skin friction After a run the fringe spacings are imaged with a CCD-array digital camera and measured on a computer Skin friction and transition measurements on a two-dimensional wing are presented and compared with computational predictions
71 citations
01 Jan 1993
TL;DR: In this paper, a new oil-fringe imaging fkin friction (FISF) technique is presented to measure skin friction on wind tunnel models, where lines of oil are applied on surfaces that connect the intended sets of measurement points, and then a wind tunnel is run so that the oil thins and forms interference fringes that are spaced proportional to local skin friction.
Abstract: A new oil-fringe imaging fkin friction (FISF) technique to measure skin friction on wind tunnel models is presented. In the method used to demonstrate the technique, lines of oil are applied on surfaces that connect the intended sets of measurement points, and then a wind tunnel is run so that the oil thins and forms interference fringes that are spaced proportional to local skin friction. After a run the fringe spacings are imaged with a CCD-array digital camera and measured on a computer. Skin friction and transition measurements on a two-dimensional wing are presented and compared with computational predictions.
71 citations
TL;DR: In this paper, a new technique for measuring skin friction was employed to help document the flow on an airfoil at angles of attack from -0.5 to 11.5 deg.
Abstract: A new technique for measuring skin friction was employed to help document the flow on an airfoil at angles of attack from -0.5 to 11.5 deg. Surface pressures were also measured on both the wing and wind-tunnel walls. The experiment was conducted at a freestream Mach number of 0.2 and Reynolds numbers of 0.6, 2, and 6 x 10 6 . The objective of the study was to provide data and boundary condition information sufficient for the validation of numerical simulations. Such a simulation of the experiment was conducted using the INS2D Navier-Stokes code with the shear-stress-transport turbulence model. The computations provide a good description of both laminar and turbulent shear levels, except for turbulent flow on the top surface of the wing at the higher angles of attack.
57 citations