Use of a pseudo-turbulent signal to calibrate an intermittency measuring circuit

Abstract

Measurements of the intermittency factor γ and in particular the crossing frequencyf_γof the turbulent/non-turbulent interface in the outer regions of various turbulent shear flows depend strongly on the settings of the intermittency meter used. Two methods of calibrating an intermittency meter of conventional design are described. In the first, turbulent and non-turbulent signals are simulated and switched at random times using an analog computer. Particular attention is given to the spectra of the switching and turbulent signals but the non-turbulent signal is assumed to have the same spectrum as the turbulent signal. In the second method, the same switching process is applied to two real signals, obtained in the fully turbulent and irretational flow regions associated with a turbulent jet with a co-flowing external air stream. A rather simple calibration procedure derived using the results of both methods is applied to the measurements of γ andf_γin the same jet. It is suggested that the simulation process adopted here could be useful in inferring properties of intermittent turbulent flows.