BAGUS NUGROHO
  • Home
  • Biography
  • Qualifications
  • Publications
  • Research
    • Research Topics >
      • Converging - Diverging Riblets
      • Surface Roughness
      • Ship Biofoulings
      • Mars Supersonic Parachute
      • Unmanned Combat Aerial Vehicle
      • Submarine Hydrodynamics
      • Destroyer Ship Aerodynamics
    • Research Fundings
    • Research Collaborations
  • University Teaching
  • Thermography
  • Outreach Activities
    • High-school engineering competition
    • Election Supervisory Committee
    • Indonesian Student Association in Australia
    • Election Committee
  • Galleries
    • Fluid Mechanics Arts >
      • Art gallery 1
      • Art gallery 2
      • Art gallery 3
    • Airshow Photos
  • In media
    • Television
    • Printed media
    • Online
  • Contact
  • Home
  • Biography
  • Qualifications
  • Publications
  • Research
    • Research Topics >
      • Converging - Diverging Riblets
      • Surface Roughness
      • Ship Biofoulings
      • Mars Supersonic Parachute
      • Unmanned Combat Aerial Vehicle
      • Submarine Hydrodynamics
      • Destroyer Ship Aerodynamics
    • Research Fundings
    • Research Collaborations
  • University Teaching
  • Thermography
  • Outreach Activities
    • High-school engineering competition
    • Election Supervisory Committee
    • Indonesian Student Association in Australia
    • Election Committee
  • Galleries
    • Fluid Mechanics Arts >
      • Art gallery 1
      • Art gallery 2
      • Art gallery 3
    • Airshow Photos
  • In media
    • Television
    • Printed media
    • Online
  • Contact
Melbourne University Early Career Research Grant(2020)
Hydrodynamics of Bio-inspired Antifouling topographies. AUD$10,000

Melbourne University Early Career Research Grant(2019)

The effect of surface roughness on modern aircraft performances. AUD$10,000

British Council, Newton Linkage (2015)
Improvement of energy and environmental sustainability in marine transportation systems through understanding and management of bio-fouling in wall-bounded turbulence. GBP120,000

Australian-Indonesia Centre, Small Projects Proposals Funds (2014)
Enhancement of energy sustainability in naval and aerospace system through improved understanding and management of wall‐bounded turbulence. AUD$20,000

American Physical Society, Travelling Grant (2012)
USD$ 1,000

Headline figure courtesy of Jung Hoon Lee, click the link below for full video
http://dx.doi.org/10.1103/APS.DFD.2014.GFM.V0054
Proudly powered by Weebly