Standardwind tunnel models, also known as reference models, calibration models or test check-standards are objects of relatively simple and precisely defined shapes, having known aerodynamic characteristics, that are tested in wind tunnels. Standard models are used in order to verify, by comparison of wind tunnel test results with previously published results, the complete measurement chain in a wind tunnel, including wind tunnel structure, quality of the airstream, model positioning, transducers and force balances, data acquisition system and data reduction software. More specifically, standard wind tunnel models are used for:
confirmation of the reliability of the data from a new wind tunnel by comparison with results from other wind tunnel facilities;
providing baselines for correlation of results from different wind tunnels;
identification of problems and faults in the operation of a wind tunnel;
verification of new measurement techniques or devices;
training of wind tunnel personnel.
Besides, results from wind tunnel tests of standard models are used as test cases for verification of computational-fluid-dynamics computer codes. In most wind tunnels, standard models are tested during the commissioning and calibration of the facility. This sometimes has an unfortunate effect that the test results are not as good as they can be, because the wind tunnel and its measurement system have not yet been optimally tuned at the time of the test. However, some laboratories have adopted the practice of periodical testing of a standard model every couple of years in order to provide a continued confidence in the reliability of measurements in their wind tunnels Standard wind tunnel models are usually intended for one of the basic wind tunnel measurement types, such as the measurement of forces and moments with force balances or measurements of pressure distribution. Results of wind tunnel tests of these models are generally published in the form of nondimensional aerodynamic coefficients and made available to the wind-tunnel community, often in review reports containing inter-facility comparisons of data, discussing observed scatter of results, different testing conditions, production differences between models etc. As the majority of wind tunnel tests is related to aeronautics, most standard wind tunnel models resemble simplified forms of wings, airplanes or missiles. Such are, for static tests: NACA 0012 and CLARK Y , AGARD-B / AGARD-C , ONERA-M, HB-2. For dynamic tests, the often-used standard models are: SDM ), BFM and MBFM. A number of other standard models exists as well. With the increased use of wind tunnels in the testing of road vehicles, several standard models of generic car shapes were defined., such as the Ahmed body , MIRA reference car , etc. Some wind tunnel laboratories perform periodical checkouts using internally defined standard models that are selected from the repository of models previously tested in the facility Geometry of a standard wind tunnel model is defined relative to some easily identified parameter, e.g. body diameter or wing chord. The geometry is published by the institution proposing the model. Beside the model itself, a standard model support, such as a sting, to be used with the model, is usually defined. An actual model is built to a size suitable for the size of a specific wind tunnel test section, in particular taking care that the frontal blockage of the model is kept well below 1%. In order to eliminate the effects of production differences between models in inter-facility comparisons, sometimes the same physical standard model is tested in several wind tunnels
