Dossier: R&D for Cleaner and Fuel Efficient Engines and Vehicles
Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 66, Number 5, September-October 2011
Dossier: R&D for Cleaner and Fuel Efficient Engines and Vehicles
Page(s) 779 - 790
DOI https://doi.org/10.2516/ogst/2011139
Published online 18 November 2011
  • Kyrtatos N., Watson N. (1980) Applications of aerodynamically induced pre whirl to small turbocharger compressor, ASME, J. Eng. Power 102, 934-950. [Google Scholar]
  • Galindo J., Serrano J.R., Margot X., Tiseira A., Schorn N., Kindl H. (2007) Potential of flow pre-whirl at the compressor inlet of automotive engine turbochargers to enlarge surge margin and overcome packaging limitations, Int. J. Heat Fluid Flow 28, 3, 374-387. [CrossRef] [Google Scholar]
  • Rodgers C. (1990) Centrifugal compressor inlet guide vanes for increased surge margin, ASME paper 90-GT-158, 113, 696-702. [Google Scholar]
  • Whitfield A., Wallace F.R., Atkey C. (1975) Experimental and theoretical performance of a radial flow turbocharger compressor with inlet pre-whirl, IMechE 43/75. [Google Scholar]
  • Ishino M., Iwakiri Y., Bessho A., Uchida H. (1999) Effects of variable inlet guide vanes on small centrifugal compressor performance, ASME paper 99-GT-157, 2. [Google Scholar]
  • Wimmer R., Steindl W. (2004) Vortex inlet vanes. DE10250302. 19.05.2004. [Google Scholar]
  • Barker D.L. (2005) A pre swirl generator a compressor and a method of imparting pre whirl to a gas flow, WO 2005/100798. 27.10.2005. [Google Scholar]
  • Whitfield A., Sutton A.J., Leonard H.J. (1991) The development of turbocharger compressors with improved surge margin, IMechE C433/063, 9-12. [Google Scholar]
  • Fischer F.B. (1988) Application of map width enhancement devices to turbocharger compressor stages, SAE paper 880794. [Google Scholar]
  • Hunzinker R., Dickmann H.P., Emmrich R. (2001) Numerical and experimental investigation of a centrifugal compressor with an inducer casing bleed system, Proc. IMechE A: J. Power Energy 215, 783-791. [CrossRef] [Google Scholar]
  • Nikpour B. (2004) Turbocharger compressor flow range improvement for future heavy duty diesel engines, Thiesel 2004 conference on thermo-and fluid dynamics processes in diesel engines, September 7th-10th, 2004, Valencia (Spain). [Google Scholar]
  • Abdelhamid A.N., Bertrand J. (1980) Distinction between two types of self exited gas oscillations in vaneless radial diffusers, Can. Aeronaut. Space J. 105-117. [Google Scholar]
  • Turunen-Saaresti T., Grônman A.J., Jatinen A. (2009) Experimental study of pinch vaneless diffuser of centrifugal compressor, ASME Turbo EXPO 2009, GT2009-60162. Orlando. [Google Scholar]
  • Ludtke K. (1983) Aerodynamic tests on centrifugal process compressors – the influence of the vaneless diffusor shape, J. Eng. Power 105, 902-909. [CrossRef] [Google Scholar]
  • Di Liberti J.-L., Wilmsen B., Engeda A. (1996) The effect of the vaneless diffuser width on the performance of a centrifugal compressor, Fluids Engineering Division Conference, ASME 237, 797-803. [Google Scholar]
  • Kurokawa J., Saha S.L., Matsui, J., and Imamura, H., A new passive device to suppress several instabilities in turbomachines by use of J-grooves, Proc. US-Japan Seminar: Abnormal Flow Phenomena in Turbomachines, Osaka, Japan, pp. 1-7 (1998-11). [Google Scholar]
  • Gao C., Gu C., Wang T. (2009) Passive control of rotating stall in vaneless diffuser with radial grooves: detailed numerical study, ASME turbo Expo., Orlando, USA, 2009, Paper GT2009- 59323, pp. 1225-1233. [Google Scholar]
  • Eynon P.A., Whitfield A. (2000) Pressure recovery in a turbocharger compressor volute, Proc. IMechE A: J. Power Energy 214, 6, 599-610. [CrossRef] [Google Scholar]
  • Dong R., Chu S., Katz J. (1997) Effect of modification to tongue and impeller geometry on unsteady flow, pressure fluctuation and noise in a centrifugal pump, J. Urbomach., 506-515. [Google Scholar]
  • Lipski W. (1979) The influence of shape and location of the tongue of spiral casing on the performance of single stage radial pumps, Sixth Conference of Fluid Machinery, Budapest Akadamia Kiado, pp. 673-682. [Google Scholar]
  • Society of Automotive Engineering (SAE) Standard J1826, Turbocharger Gas Stand Test Code, SAE Press, Warrendale, PA (1995). [Google Scholar]
  • Mohtar H., Chesse P., Chalet D. (2011) Describing Uncertainties Encountered During Laboratory Turbocharger Compressor Tests, Experimental Techniques, Society for Experimental Mechanics, doi: 10.1111/j.1747-1567.2011.00734.x. [Google Scholar]

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