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Operational ranges of compressors are limited when running at low mass flow. In particular, large pressure fluctuations occur when reaching surge that can cause rapid deterioration of the bearing system and considerably increase the level of noise. In order to extent the operability of their turbochargers, Honeywell equipped its compressor housings with ported shrouds located at the inlet. The ported shroud has been demonstrated to allow a larger range of operability with minor negative impact on the compressor efficiency. In a collaborative work between Honeywell and the University of Cincinnati, a turbocharger bench facility was designed and tested. The size of the compressor was typical for a turbocharger used on diesel engines. The goal of the experimental study was to develop better understanding of the flow dynamic in the compressor housing that affects stall and surge for different operating conditions.

Surge is a phenomenon that limits the operational range of the compressor at low mass flow rates. The objective of this research is to study effective operational range for a ported shroud compressor. The size of the compressor is typical for a turbocharger used on diesel engines. To be able to extend the operational range, the surge characteristics have to be assessed. This is done by performing measurement of the flow at the inlet to the compressor wheel and pressure fluctuations at the inlet and outlet of the compressor housing. Detailed numerical computations of the flow in the entire compressor section under similar operating conditions have also been carried out. The experimental work includes Particle Imaging Velocimetry (PIV) measurements of the instantaneous and mean velocity field at the inlet. At surge, low frequency pulsations are detected that seem to result from back flow already observed in stall.