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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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This course covers the development of the fundamental equations of fluid mechanics and their simplifications for several areas of marine hydrodynamics and the application of these principles to the solution of engineering problems. Topics include the principles of conservation of mass, momentum and energy, lift and drag forces, laminar and
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- mechanical engineering
- fluid mechanics
- mass
- momentum
- energy
- lift
- drag
- laminar
- turbulent
- turbulence
- wave
- waves
- surface waves
- current
- water
- ocean
- force
- sea
- sea wave
- ship
- propulsion
- propeller
- fish
- swimming
- wind
- viv
- vortex induced vibration
- bernoulli
- d'allembert
- hydrostatics
- fluid dynamics
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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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,
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Tag(s):
- mechanical engineering
- turbine
- rotor
- computer-aided design
- propulsion
- lifting line
- thrust
- torque
- vortices
- boundary layers
- wake adaptation
- cavitation
- fluid flow
- fluid dynamics
- lifting surface panel method
- vortex lattice method
- lifting flow
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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The subject introduces the principles of ocean surface waves and their interactions with ships, offshore platforms and advanced marine vehicles. Surface wave theory is developed for linear and nonlinear deterministic and random waves excited by the environment, ships, or floating structures.
Following the development of the physics and math
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Published by: Massachusetts Institute of Technology | Language: English
Published by: Massachusetts Institute of Technology | Language: English
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Turbulent flows, with emphasis on engineering methods. Governing equations for momentum, energy, and species transfer.
Turbulence: its production, dissipation, and scaling laws. Reynolds averaged equations for momentum, energy, and species transfer. Simple closure approaches for free and bounded turbulent shear flows. Applications to jets,
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Tag(s):
- mechanical engineering
- turbulent flow
- fundamental laws
- turbulent boundary layers
- free shear flows
- fluid dynamics
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