An experimental investigation of pulsatile flow through a smooth constriction

Measurements of flow disturbances in the downstream region of modeled stenoses in a rigid tube, with upstream pulsatile flow are reported. Experiments were conducted over physiologically relevant mean Reynolds numbers of 600; based on the tube diameter and the time-averaged value of upstream centerline velocity. Contoured constrictions with 25%, 50% and 75% area reductions were investigated and velocity data were obtained from ensemble averaging techniques (phase-locked waveform). Experimental data over extensive spatial regions of poststenotic fields were taken, employing a two-component laser Doppler velocimeter LDV. Constant time sampling techniques for performing data or frequency analyses were used to avoid velocity bias and to study the evolution of poststenotic flow disturbances. It is found that different types of flow disturbances exist downstream of the constriction. Data analysis methods with the aid of flow visualization allow accurate classification of the disturbances which are sensitive indicators of mild to moderate constrictions. Although the present study was motivated by a biological situation, sufficient data were reported in detail that they may also be used by investigators working in computational fluid dynamics.