The University of Western Australia

UWA Staff Profile

Ipsum Lorem

Dr Scott Draper

Senior Lecturer
Oceans Graduate School

Contact details
Address
Oceans Graduate School
The University of Western Australia (M051)
35 Stirling Highway
CRAWLEY WA 6009
Australia
Phone
+61 8 6488 7400
Email
scott.draper@uwa.edu.au
Qualifications
BE BCom W.Aust., DPhil Oxf.
Publications
(* PhD Students)

J35. Creed, M., Draper, S., Nishino, T., Borthwick, A.G.L. (2017) Flow through a very porous obstacle in a shallow channel, Proceedings of the Royal Society Part A, In Press.

J34. Jiang, H., Cheng, L., Draper, S. and An, H. (2017), Three-dimensional wake transition for a circular cylinder near a moving wall, Journal of Fluid Mechanics, In Press.

J33. Chandler, J., White, D.J., Techera, E.J., Gourvenec, S. and Draper, S. (2017), Engineering and legal considerations for decommissioning of offshore oil and gas infrastructure in Australia , Ocean Engineering, http://dx.doi.org/10.1016/j.oceaneng.2016.12.030.

J32. Tong, F., Cheng, L., Xiong, C., Draper, S., An, H. and Lou, X. (2017), Flow regimes for a square cross-section cylinder in oscillatory flow , Journal of Fluid Mechanics, 813, pp.85-109.

J31. Jiang, H., Cheng, L., Draper, S. and An, H. (2017), Two-and three-dimensional instabilities in the wake of a circular cylinder near a moving wall, Journal of Fluid Mechanics, 812, pp.435-462.

J30. Adcock, T.A.A, Taylor, P.H. and Draper, S. (2016), On the shape of large wave-groups on deep water - the influence of bandwidth and spreading, Physics of Fluids, 28, 106601, doi: 10.1063/1.4963777

J29. *Jiang, H., Cheng, L., Draper, S., An, H. and Tong, F., 2016. Three-dimensional direct numerical simulation of wake transitions of a circular cylinder, Journal of Fluid Mechanics, 801, pp.353-391.

J28. Draper, S., Nishino, T., Adcock, T.A.A. and Taylor, P. H. (2016) Performance of an ideal turbine in an inviscid shear flow, Journal of Fluid Mechanics, 796, 86-112.

J27. Zhang, Q., Cheng, L., Zhao, M., Draper, S. and An, H. (2016), Experimental study of local scour beneath two tandem pipelines in steady current, Coastal Engineering Journal. DOI: S0578563417500024.

J26. An, H., Yao, W., Cheng, L., Draper, S., Zhao, M., Tang, G., Zhang, Y. and Hortin, P. (2016). Detecting Local Scour Using Contact Image Sensors , Journal of Hydraulic Engineering, p.04016100.

J25. Cheng, L., An, H., Draper, S. and White, D., 2016. Effect of wave boundary layer on hydrodynamic forces on small diameter pipelines, Ocean Engineering, 125, pp.26-30.

J24. * Leckie, S.F., Mohr, H., Draper, S., McLean, D.L., White, D.J. and Cheng, L. (2016). Sedimentation-induced burial of subsea pipelines: observations from field data and laboratory experiments, Coastal Engineering, 114, 137-158.

J23. * Zhang, Q., Draper, S., Cheng, L. and An, H. (2016) Time scale of scour beneath a submarine pipeline in currents, waves and combined currents and waves, Journal of Hydraulic Engineering, 10.1061/(ASCE)HY.1943-7900.0001247, 04016093.

J22. * Jiang, H., Cheng, L., Tong, F. Draper, S., and An, H., (2016). Stable state of Mode A for flow past a circular cylinder, Physics of Fluids, 28, 2014103, doi: 10.1063/1.4964379

J21. *Mohr, H., Draper, S., White, D.J. & Cheng, L. (2016). Predicting the rate of scour beneath subsea pipelines in marine sediments under steady flow conditions, Coastal Engineering, 110, 111-126.

J20. Nishino, T., & Draper, S. (2015). Local blockage effect for wind turbines, Journal of Physics: Conference Series, 625, No. 1, p. 012010.

J19. Adcock, T.A.A., Taylor, P.H. and Draper, S. (2015). Non-linear dynamics of wave-groups in random seas: Unexpected walls of water in the open ocean, Proceedings of the Royal Society A, 471(2184).

J18. * Leckie, S.H., White, D.J., Draper, S. and Cheng, L., (2016). Unlocking the Benefits of Long-Term Pipeline-Embedment Processes: Image Analysis–Based Processing of Historic Survey Data, Journal of Pipeline Systems Engineering and Practice, p. 04016008.

J17. *Zhang, Q., Draper, S., Cheng, L. and An, H. (2015). Time scale of Scour below a subsea pipeline in time varying flow conditions, Applied Ocean Research, Applied Ocean Research, 55, p. 151-162.

J16. Adcock, T.A.A and Draper, S. (2015). A note on the variation in shape of linear rogue waves in the ocean, Underwater Technology, 33 (2), pp. 75-80.

J15. Draper, S., An, H., Cheng, L., White, D. J., & Griffiths, T. (2015). Stability of subsea pipelines during large storms, Philosophical Transactions of the Royal Society A 373: 20140106.

J14. *Leckie, S.H.F., Draper, S., White, D.J., Cheng, L., Fogliani, A.J. (2015), Lifelong embedment and spanning of a pipeline on a mobile seabed, Coastal Engineering, 95, pp. 130-146.

J13. Adcock, T. A. A., Draper, S. and Nishino, T. (2015), ), Tidal Power generation – A review of hydrodynamic modelling, Proc. Institute Mech. Engineers, Part A: J. Power and Energy, DOI: 10.1177/0957650914544347

J12. Draper, S., and Nishino, T. (2014). Centered and staggered arrangements of tidal turbines, Journal of Fluid Mechanics, 739, 72-93.

J11. Draper, S., Adcock, T. A. A., Borthwick, A.G.L, and Houlsby, G.T. (2014) An electrical interpretation of the Pentland Firth Tidal Stream Energy Resource, Proceedings of the Royal Society of London A, 470:20130207.

J10. Draper, S., Adcock, T. A. A., Borthwick, A.G.L, and Houlsby, G.T. (2014) ‘Estimate of the Extractable Pentland Firth Tidal Stream Energy Resource’, Renewable Energy, 63, 650-657.

J9. Adcock, T.A.A. and Draper, S. (2014). Power extraction from tidal channels–Multiple tidal constituents, compound tides and overtides. Renewable Energy, 63, 797-806.

J8. Draper, S., Adcock, T.A.A., Borthwick, A.G.L, and Houlsby, G.T. (2014) ‘A note on the power potential of tidal currents in channels’, International Journal of Marine Energy, 6, 1-17.

J7. Adcock, T.A.A., Draper, S., Houlsby, G.T., Borthwick, A.G.L., and Serhadlioglu, S, (2014) ‘Long-term available power predictions for the Pentland Firth’, Proc. Institute Mech. Engineers, Part A: J. Power and Energy, DOI:
10.1177/ 0957650914544347.

J6. Vennell, R., Funke, S.W., Draper, S., Stevens, C. and Divett, T. (2014) ‘Designing Large Arrays of Tidal Turbines: a synthesis and review’, Renewable and Sustainable Energy Reviews, 41, pp. 454-472.

J5. White, D.J., Draper, S., Cheng, L., An, H., Mohr, H. and Leckie, S. (2014), ‘Ocean-Structure-Seabed interaction: O-tube modelling of pipeline stability’, Australian Geomechanics, 49(4), 157-164.

J4. Draper, S., Borthwick, A.G.L., and Houlsby, G.T. (2013) ‘Energy Potential of a tidal fence deployed near a coastal headland’, Philosophical Transactions of the Royal Society of London A, 371:20120176.

J3. Adcock, T.A.A., Draper, S., Houlsby, G. T., Borthwick, A. G. L., and Serhadlioglu, S. (2013), “The available power from tidal stream turbines in the Pentland Firth”, Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 469:20130072.

J2. Serhadlıoğlu, S., Adcock, T. A., Houlsby, G. T., Draper, S., & Borthwick, A. G. (2013). Tidal stream energy resource assessment of the Anglesey Skerries. International Journal of Marine Energy, 3, 98-111.

J1. Draper, S., Houlsby, G.T., Oldfield, M.L.G. and Borthwick, A.G.L (2010). Modeling Tidal Energy Extraction in a Depth Averaged Domain. IET J. Renew. Powr. Gen., Vol. 4, pp.545-554.

.........
B1. Cheng, L., Draper, S., An, H. (2014) Scour and Erosion. Proceedings of the 7th International Conference on Scour and Erosion, Leiden, The Netherlands, CRC Press/Balkema. ISBN: 978-1-138-02732-9.

B2. Draper, S., Harris, J.M., Cheng, L. and White, D.J. (2016) Seabed Processes: Sediment Transport, Scour and Sedimentation, emoe539, Encyclopaedia of Marine and Offshore Engineering.
Research profile
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Last updated:
Tuesday, 3 November, 2015 2:39 PM