RSS Feed for low drag https://solvonauts.org/%3Faction%3Drss_search%26term%3Dlow+drag RSS Feed for low drag 2.23 Hydrofoils and Propellers (13.04) (MIT) 2.23 Hydrofoils and Propellers (13.04) (MIT) This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win http://dspace.mit.edu/handle/1721.1/39815 http://dspace.mit.edu/handle/1721.1/39815 13.04 Hydrofoils and Propellers (MIT) 13.04 Hydrofoils and Propellers (MIT) This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win http://dspace.mit.edu/handle/1721.1/36898 http://dspace.mit.edu/handle/1721.1/36898 2.23 Hydrofoils and Propellers (13.04) (MIT) This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win https://dspace.mit.edu/handle/1721.1/39815 https://dspace.mit.edu/handle/1721.1/39815 13.04 Hydrofoils and Propellers (MIT) This course deals with theory and design of hydrofoil sections lifting and thickness problems for sub cavitating sections unsteady flow problems It focuses on computer aided design of low drag cavitation free sections The course also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder and control surface design Topics include propeller lifting line and lifting surface theory computer aided design of wake adapted propellers unsteady propeller thrust and torque The course is also an introduction to subjects like flow about axially symmetric bodies and low aspect ratio lifting surfaces and hydrodynamic performance and design of waterjets We will also do an analysis of performance and design of wind turbine rotors in steady and stochastic win https://dspace.mit.edu/handle/1721.1/36898 https://dspace.mit.edu/handle/1721.1/36898 2.23 Hydrofoils and Propellers (MIT) 2.23 Hydrofoils and Propellers (MIT) This course develops the theory and design of hydrofoil sections including lifting and thickness problems for sub cavitating sections unsteady flow problems and computer aided design of low drag cavitation free sections It also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder control surface propeller and wind turbine rotor design Other topics include computer aided design of wake adapted propellers steady and unsteady propeller thrust and torque performance analysis and design of wind turbine rotors in steady and stochastic wind and numerical principles of vortex lattice and lifting surface panel methods Projects illustrate the development of computational methods for lifting propeller and wind turbine flows and use of state of the a This course develops the theory and design of hydrofoil sections including lifting and thickness problems for sub cavitating sections unsteady flow problems and computer aided design of low drag cavitation free sections It also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder control surface propeller and wind turbine rotor design Other topics include computer aided design of wake adapted propellers steady and unsteady propeller thrust and torque performance analysis and design of wind turbine rotors in steady and stochastic wind and numerical principles of vortex lattice and lifting surface panel methods Projects illustrate the development of computational methods for lifting propeller and wind turbine flows and use of state of the a http://ocw.mit.edu/courses/mechanical-engineering/2-23-hydrofoils-and-propellers-spring-2007 http://ocw.mit.edu/courses/mechanical-engineering/2-23-hydrofoils-and-propellers-spring-2007 2.23 Hydrofoils and Propellers (MIT) This course develops the theory and design of hydrofoil sections including lifting and thickness problems for sub cavitating sections unsteady flow problems and computer aided design of low drag cavitation free sections It also covers lifting line and lifting surface theory with applications to hydrofoil craft rudder control surface propeller and wind turbine rotor design Other topics include computer aided design of wake adapted propellers steady and unsteady propeller thrust and torque performance analysis and design of wind turbine rotors in steady and stochastic wind and numerical principles of vortex lattice and lifting surface panel methods Projects illustrate the development of computational methods for lifting propeller and wind turbine flows and use of state of the a https://ocw.mit.edu/courses/mechanical-engineering/2-23-hydrofoils-and-propellers-spring-2007 https://ocw.mit.edu/courses/mechanical-engineering/2-23-hydrofoils-and-propellers-spring-2007