Made Jaya Muliawan

Epostmade.muliawan@ntnu.no
Fasttelefon 73591546
KontoradresseMarinteknisk senter*G2.190, Otto Nielsens veg 10
StillingStipendiat
EnhetInstitutt for marin teknikk


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Previous experiences

  • 5 years working with ConocoPhillips as Marine Structural Engineer
  • 2 years (in total) working in several engineering company such as Amec Engineering, LAPI-ITB, etc

Previous Educations

  • The Univ. of Tokyo (2002-2004), Japan, Civil Engineering Dept. - Coastal and port lab. Master of Engineering
  • Bandung Istitute of Tech. (1996-2000), Indonesia, Ocean Engineering. Bechelor

Present Reseach

My PhD research topic is about the mooring system of a multy-body ocean renewable energy such as two-body wave energy converter (WEC) and combined concept of a WEC and a floating wind turbine (FWT).

Patent

Floating wind turbine with wave energy converter. M. J. Muliawan, T. Moan, M. Karimirad, Z. Gao (registred) 

Journal articles

  • Numerical benchmarking study of a selection of wave energy converters. A. Babarit, J. Hals, M. J. Muliawan, A. Kurniawan, T. Moan, J. Krokstad. Renewable Energy 41, 44-63.
  • Analysis of a two-body floating wave energy converter with particulat focus on the effects of power take-off and mooring systems on energy capture. M.J. Muliawan, Z. Gao, T. Moan, A. Babarit. Submitted for publication (JOMAE)
  • Application of the contour line method for estimating extreme response in mooring lines of a two-body floating wave energy.  converter. M.J. Muliawan, Z. Gao, T. Moan. Submitted for publication (JOMAE)
  • Dynamic response and power performance of a combined  spar-type floating wind turbine with large point absorber floating wave energy converter. M.J. Muliawan, M. Karimirad, T. Moan. Submitted for publication (Renewable Energy Journal)

 Conference articles

  • Analysis of a two-body floating wave energy converter with particulat focus on the effects of mooring systems on energy capture. M.J. Muliawan, Z. Gao, A. Babarit, T. Moan. Presented in OMAE 2011, Rotterdam, the Nederland
  • Comparison of mooring loads on the wave dragon wave energy converter obtained by a numerical model and experimental data. S. Parmeggiani, M.J. Muliawan, Z. Gao, T. Moan, E.F-Madsen. Will be presented in OMAE2012, Rio de Janeiro, Brazil
  • STC: A combined floating wind turbine and wave energy converter-Promising and Challanging. M.J.Muliawan, M.Karimirad,T.Moan, Z. Gao. Submitted to OMAE2012, Rio de Janeiro, Brazil
  • Evolution of nearshore currents around submerged breakwaters. R.S. Ranasinghe, S. Sato, Y. Tajima, M.J. Muliawan. Proceding of Coastal Engineering 2008 (pp 927.939)

 Other articles/reports

  •  A note on technical criteria of floating wind turbine for concept screening in WP3 Marina Platform Project.   Z. Gao, M.J. Muliawan, T. Moan. 2011 - FP7 Marina Platform Project Internal Report.
  • Numerical estimation of energy delivery from a selection of wave energy converters. A. Babarit, J. Hals, A. Kurniawan, M. J. Muliawan, , T. Moan, J. Krokstad. 2011 - Final report of the NumWEC project financed by Statcraft.