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Biography
S. H. Winoto

S. H. Winoto

Universitas Diponegoro, Indonesia (formerly at National  University of Singapore, Singapore)

Associate Professor


Email: shwinoto@gmail.com


Qualifications

1980 Ph.D., Imperial College of Science and Technology, University of London, Mechanical Engineering

1976 M.Sc., (with Distinction), Imperial College of Science and Technology, University of London, Mechanical Engineering

1974 B.Sc., (First Class Honours), Queen Mary College, University of London, Mechanical Engineering


Publications (selected)

  1. S H Winoto, Tandiono, D A Shah and H Mitsudharmadi (2011), "Concave Surface Boundary Layer Flows in the Presence of Streamwise Vortices", The International Journal of Fluid Machinery and Systems, 4, no.1, 33 – 46.
  2. Tandiono, S H Winoto and D A Shah (2009), "Visualizing Shear Stress in Gortler Vortex Flow”Journal of Visualization, 12, no. 3, 195 – 202.
  3. K W Cheah, T S Lee, S H Winoto and Z.M. Zhao (2007), "Numerical Flow Simulation in a Centrifugal Pump at Design and Off‑Design Conditions", International Journal of Rotating Machinery, no. 10.
  4. C C Rondonuwu, and S H Winoto (2006), "Pressure distributions along vertical hydrodynamic herringbone grooved journal bearings". Tribology Transactions, 49, no. 2, 174‑181.
  5. S H Winoto, H Mitsudharmadi and D A Shah (2005), "Visualizing Gortler vortices", Journal of Visualization, 8, no. 4, 315 – 322.
  6. H Mitsudharmadi, S H Winoto and D A Shah (2005), "Secondary instability in forced wavelength Gortler vortices".
    Physics of Fluids, 17, 074104.
  7. H Mitsudharmadi, S H Winoto and D A Shah (2004), "Development of boundary layer flow in the presence of forced wavelength Gortler vortices". Physics of Fluids, 16, no. 11, 3983.
  8. Q D Zhang, S H Winoto, G X Guo and J P Yang (2003), "An experimental study on vibration of disks mounted on hard disk drive", Tribology Transactions, 46, no. 3 , 465 – 468 .
  9. S H Winoto, Z Q Hou, S K Ong, C C Rondonuwu and Q D Zhang (2002), "Effects of herringbone groove patterns on performance of vertical hydrodynamic journal bearings", Tribology Transactions, 45, no. 3, 318 – 323.
  10. Q D Zhang, S H Winoto, S.X. Chen and J.P. Yang (2002), "A bi‑directional rotating fluid bearing system", Microsystem Technologies, 8, 271 – 277.
  11. Q D Zhang, S X Chen, S H Winoto and E H Ong (2001), "Design of high‑speed magnetic fluid bearing spindle motor", IEEE Transactions on Magnetics, 37, no. 4, 2647 – 2650.
  12. S H Winoto, Z Q Hou and Q D Zhang (2001), "Performance comparison of vertical Herringbone grooved journal bearing", Journal of Flow Visualization and Image Processing, 8, no. 3, 203 – 212.
  13. S H Winoto, Q D Zhang, J P Y Tan, Z Q Hou and C C Rondonuwu (2001), "Herringbone grooves for pumping sealing of lubricant in vertical hydrodynamic journal bearing", International Journal of Transport Phenomena, 3, no. 4, 429 – 436.
  14. S H Winoto, D H Zhang and Y T Chew (2000), "Transition in boundary layers on a concave surface", Journal of Propulsion and Power, 16, no. 4, 653 – 660.
  15. S H Winoto, H Li and D A Shah (2000), "Efficiency of jet pumps", ASCEJournal of Hydraulic Engineering, 126, no. 2, 150 ‑156.
  16. S H Winoto (1999), "Performance of a viscous pump with radial pumping grooves at low speeds".
    Tribology Transactions, 42, no. 2, 425 – 428.
  17. S H Winoto, D A Shah and H Li (1998), "Visualization in water jet pump throat under limiting flow condition", Journal of Flow Visualization and Image Processing, 5, no. 3, 187 – 196.
  18. S H Winoto (1998), "Performance of a viscous pump with radial pumping grooves", Tribology Transactions, 41, no. 1, 145 – 149.
  19. Z D Shi, S H Winoto and T S Lee (1997), "Experimental investigation on pulsatile flows in pipe", Journal of Biomedical Engineering, Vol. 119, no. 2, 213 – 216.
  20. H  Liu, S H Winoto and D A Shah (1997), "Velocity measurements within confined turbulent jets: Application to Cardiovalvular Regurgitatiion", Annals of Biomedical Engineering, 25, no. 6, 939 – 948.
  21. S H Winoto, D A Shah and H Liu (1996), "Estimation of turbulent shear stress in free jets: Application to valvular regurgitation", Annals of Biomedical Engineering, 24, no. 2, 320‑326.


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