References

  • B.P. Epps (2016) "On the rotor lifting line wake model" Journal of Ship Production and Design, vol. 32, no. 3, pp.1-15. PDF
  • B.P. Epps and R.W. Kimball (2013) "Unified Rotor Lifting Line Theory" Journal of Ship Research, vol. 57, no. 4, pp.1-21. PDF
  • K. Wilkins (2012) "Propeller Design Optimization for Tunnel Bow Thrusters in the Bollard Pull Condition" MS thesis, MIT. PDF
  • B. Epps, O. Víquez, and C. Chryssostomidis (2011) "Dual-operating-point blade optimization for high-speed propellers" 11th International Conference on Fast Sea Transportation (FAST 2011), Honolulu, HI, September 2011. PDF
  • M. Angle (2011) "Electrical Instrumentation of a Contra-rotating Propeller Drive System" MS thesis, MIT. PDF
  • E. Kravitz (2011) "Analysis and Experiments for Contra-Rotating Propeller" MS thesis, MIT. PDF
  • D. Laskos (2010) "Design and Cavitation Performance of Contra-Rotating Propellers" MS thesis MIT. PDF
  • B.P. Epps (2010), "OpenProp v2.4 Theory Document" MIT Department of Mechanical Engineering Technical Report, December 2010. PDF
  • B.P. Epps (2010), "OpenProp v2.3 Theory Document" MIT Department of Mechanical Engineering Technical Report, March 2010. PDF
  • B. Epps, J. Ketcham, and C. Chryssostomidis (2010), "Propeller blade stress estimates using lifting line theory" Grand Challenges in Modeling and Simulation. PDF
  • J. Ketcham (2010), "Design, Build and Test of an Axial Flow Hydrokinetic Turbine with Fatigue Analysis" MS Thesis, MIT. PDF
  • B.P. Epps (2010), "An impulse framework for hydrodynamic force analysis: fish propulsion, water entry of spheres, and marine propellers" PhD Thesis, MIT. PDF
  • Epps, et. al. (2009), "OpenProp: an open-source design tool for propellers and turbines" SNAME Propellers and Shafting. PDF
  • Epps, et. al. (2009), "OpenProp: an open-source parametric design and analysis tool for propellers" Grand Challenges in Modeling and Simulation. PDF
  • Flood (2009), "Propeller performance analysis using lifting line theory" SM Thesis, MIT. PDF
  • Stubblefield (2008), "Numerically based ducted propeller design using vortex lattice lifting line theory" SM Thesis, MIT. PDF
  • Chung (2007), "An enhanced propeller design program based on propeller vortex lattice lifting line theory" SM Thesis, MIT. PDF
  • D'Epagnier (2007), "A computational tool for the rapid design and prototyping of propellers for underwater vehicles" SM Thesis, MIT. PDF
  • D'Epagnier, Chung, Stanway, and Kimball (2007) "An Open Source Parametric Propeller Design Tool" MTS/IEEE OCEANS, Vancouver, BC, Canada. PDF
  • C. Peterson (2006) "Minimum Pressure Envelope Cavitation Analysis Using Two-Dimensional Panel Method" MS thesis, MIT. PDF
  • Stanway and Stefanov-Wagner, (2006) "Small-diameter ducted contrarotating propulsors for marine robots" MTS/IEEE OCEANS. PDF