Transition correlations in three-dimensional boundary layers

The stability and transition characteristics of three-dimensi onal boundary-layer flows are examined. First, the flow over a rotating cone is considered computationally. An increase of stagnation temperature is found to be only slightly stabilizing. Parameter studies on the simple rotating-cone geometry provide a large database of three-dimensional boundary-layer profiles and associated stability characteristics. To determine the possibility of correlating transition location with parameters based purely on basic-state three-dimensional boundary-layer profile characteristics, an empirical transition location of N = 9 is assumed. Transition location does not correlate with the traditional crossflow Reynolds number. A more appropriate definition for crossflow Reynolds number is found and termed Rcf(new). This new parameter appears to correlate for transition location when plotted against maximum crossflow velocity. Then, the flow over a yawed cone is considered experimentally. The correlation results obtained from the rotating-cone work are applied to the actual measured transition locations on two different yawed-cone models under various angle-of-attack conditions in two different experimental facilities and are verified. This correlation is only suggested as a tool for preliminary transition prediction and design in three-dimensi onal boundary layers; once a preliminary shape is selected, further linear stability theory or parabolized stability equation calculations are strongly urged. Nomenclature A = Prl/2(y - l)M 2/2 C* = Chapman-Rubesin parameter based on T* C*d = Chapman-Rubesi n parameter based on r*d

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