Yingxian Xue scite author profile

Turbine with twin-entry volute has advantage of utilizing energy from pulsatile exhaust gas and improving low-speed torque of an internal combustion engine. This paper investigates unsteady performance of a mixed flow turbine with nozzled twin-entry volute confronted by pulsatile incoming flow. The turbine performance at pulsating conditions with different Strouhal numbers (St) is studied via experimentally validated numerical method. Results show that the unsteadiness of turbine performance is enhanced as Strouhal number increases. In particular, the cycle-average efficiency at St=0.522 is about 3.4% higher than that of quasi-steady condition (St=0). Instantaneous loss breakdown of the turbine shows that the entropy generation rate of turbine components reduces evidently at pulsating conditions as Strouhal number increases, especially for the nozzle. Specifically, the cycle-averaged reduction of the loss in the nozzle is 37.3% at St=0.522 compared with that of St=0. The flow analysis shows that secondary flow which contributes to the majority of loss in the nozzle, including flow separation, horseshoe vortex, and reversed flow near the leading edge, are notably alleviated as Strouhal number increases. The alleviation of the flow structures are resulted from two reasons: one is that the flow distortion at the nozzle inlet is evidently depressed by the pulsating conditions, 2 the other is that the inertia of the low momentum flow in the nozzle damps flow evolution at pulsating incoming flow. Consequently, the loss is reduced and the turbine performance is benefited by the pulsating inflows.

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Gasdynamic behaviours of a radial turbine with pulsating incoming flow

Xue

Yang

Pan

et al. 2021

Energy

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A reduced-order model of twin-entry nozzleless radial turbine based on flow characteristics

Wei

Xue

Yang

et al. 2021

Energy

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Yingxian Xue

Loss analysis of a mix-flow turbine with nozzled twin-entry volute at different admissions

A direct comparison of unsteady influence of turbine with twin-entry and single-entry scroll on performance of internal combustion engine

Unsteady performance of a mixed-flow turbine with nozzled twin-entry volute confronted by pulsating incoming flow

Gasdynamic behaviours of a radial turbine with pulsating incoming flow

A reduced-order model of twin-entry nozzleless radial turbine based on flow characteristics

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