Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers
The paper attempts to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers. Under real automotive powertrain conditions, turbochargers are subjected to pulsating flows, due to the motion of the engine’s valves. Experiments on a purpose-buil...
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sg-ntu-dr.10356-1397152020-05-21T04:41:45Z Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers Avola, Calogero Copeland, Colin Romagnoli, Alessandro Burke, Richard Dimitriou, Pavlos School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Unsteady Flow Turbine Efficiency The paper attempts to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers. Under real automotive powertrain conditions, turbochargers are subjected to pulsating flows, due to the motion of the engine’s valves. Experiments on a purpose-built 2.2 L diesel engine gas-stand have allowed the quantification of unsteady pulsating turbine performance. Temperature, pressure and mass flow measurements are fundamental for the characterisation of turbine performance. An adequate sampling frequency of the instruments and acquisition rates are highly important for the quantification of unsteady turbomachine performance. In the absence of fast, responsive sensors for monitoring mass flow and temperature, however, appropriate considerations would have to be taken into account when making estimates of turbine performance under pulsating flows. A 1D model of the engine gas-stand has been developed and validated against experimental data. A hybrid unsteady/quasi-steady turbine model has been adopted to identify unsteadiness at the turbine inlet and outlet. To evaluate isentropic turbine efficiency and reduce the influence of external heat transfer upon measurements, the turbine inlet temperature has been measured experimentally in the vicinity of the turbine rotor in the inlet section, upstream of the turbine tongue. The hybrid unsteady/quasi-steady turbine model considers the presence of unsteady flows in the turbine inlet and outlet, leaving the rest of the turbine to react quasi-steadily. Virtual sensors and thermocouples have been implemented in a 1D model to correlate experimental time-averaged temperature measurements. 2020-05-21T04:41:45Z 2020-05-21T04:41:45Z 2017 Journal Article Avola, C., Copeland, C., Romagnoli, A., Burke, R., & Dimitriou, P. (2019). Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 233(2), 174-187. doi:10.1177/0954407017739123 0954-4070 https://hdl.handle.net/10356/139715 10.1177/0954407017739123 2-s2.0-85045050138 2 233 174 187 en Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering © 2017 IMechE. All rights reserved. |
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Engineering::Mechanical engineering Unsteady Flow Turbine Efficiency Avola, Calogero Copeland, Colin Romagnoli, Alessandro Burke, Richard Dimitriou, Pavlos Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| description |
The paper attempts to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers. Under real automotive powertrain conditions, turbochargers are subjected to pulsating flows, due to the motion of the engine’s valves. Experiments on a purpose-built 2.2 L diesel engine gas-stand have allowed the quantification of unsteady pulsating turbine performance. Temperature, pressure and mass flow measurements are fundamental for the characterisation of turbine performance. An adequate sampling frequency of the instruments and acquisition rates are highly important for the quantification of unsteady turbomachine performance. In the absence of fast, responsive sensors for monitoring mass flow and temperature, however, appropriate considerations would have to be taken into account when making estimates of turbine performance under pulsating flows. A 1D model of the engine gas-stand has been developed and validated against experimental data. A hybrid unsteady/quasi-steady turbine model has been adopted to identify unsteadiness at the turbine inlet and outlet. To evaluate isentropic turbine efficiency and reduce the influence of external heat transfer upon measurements, the turbine inlet temperature has been measured experimentally in the vicinity of the turbine rotor in the inlet section, upstream of the turbine tongue. The hybrid unsteady/quasi-steady turbine model considers the presence of unsteady flows in the turbine inlet and outlet, leaving the rest of the turbine to react quasi-steadily. Virtual sensors and thermocouples have been implemented in a 1D model to correlate experimental time-averaged temperature measurements. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Avola, Calogero Copeland, Colin Romagnoli, Alessandro Burke, Richard Dimitriou, Pavlos |
| format |
Article |
| author |
Avola, Calogero Copeland, Colin Romagnoli, Alessandro Burke, Richard Dimitriou, Pavlos |
| author_sort |
Avola, Calogero |
| title |
Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| title_short |
Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| title_full |
Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| title_fullStr |
Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| title_full_unstemmed |
Attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| title_sort |
attempt to correlate simulations and measurements of turbine performance under pulsating flows for automotive turbochargers |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139715 |
| _version_ |
1681057102432305152 |