Multi-Purpose Offshore/High Energy Platforms: Concepts and Applications

  • Abdussamie, Nagi (Chief Investigator)
  • Garaniya, Vikram (Chief Investigator)
  • Wang, Chien Ming (Chief Investigator)
  • Karampour, Hassan (Chief Investigator)
  • Magee, Alan (Chief Investigator)
  • Jin, Yuting (Chief Investigator)
  • Yew, Lim Kian (Chief Investigator)
  • Draper, Scott (Chief Investigator)
  • Martini, Andrew (Chief Investigator)
  • Underwood, Mark (Chief Investigator)
  • Shearer, Chris (Chief Investigator)
  • Ang, Kok Keng (Chief Investigator)
  • Abbassi, Rouzbeh (Primary Chief Investigator)
  • Salehi, Fatemeh (Chief Investigator)
  • Abrahams, Jonathan (Chief Investigator)
  • Heasman, Kevin (Chief Investigator)
  • Jarvis, Mark (Chief Investigator)

Project: Research

Project Details


Multi-use (purpose) offshore/high energy platforms can be an appealing alternative to the traditional land reclamation technique in creating space on the sea for a wide range of offshore/high energy applications such as floating breakwaters, floating renewable energy installations (e.g., production and storage of hydrogen from splitting water, floating wind turbines, wave energy converters, floating solar farms), floating marine research facility, accommodation facility, and feed systems and equipment for offshore/high energy aquaculture farming. The scope of this proposed study is to review the state-of-the-art multi-use floating offshore/high energy platform concepts and their applications which can be viable options for the Australian offshore/high energy industry in the future.
Short titleBlue Economy CRC Scoping Study
Effective start/end date5/06/204/01/21