Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 18, Part 6American Society of Mechanical Engineers, 1999 - Arctic regions |
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Page 163
... flow properties for the different flow coefficients are shown in Table 2 . The flow coefficient , , is the ratio of the axial velocity to the blade tip velocity and is given by : Φ = The Reynolds number is based on the chordlength Um ax ...
... flow properties for the different flow coefficients are shown in Table 2 . The flow coefficient , , is the ratio of the axial velocity to the blade tip velocity and is given by : Φ = The Reynolds number is based on the chordlength Um ax ...
Page 165
... flow coefficient , . The non - dimensional pressure drop P1 P2 across the turbine is given by Ap * Fig 3.1 Non - Dimensional Pressure Drop for Model 1 for Varying Flow Coefficients Efficiency = Maximum efficiency was found to be n ...
... flow coefficient , . The non - dimensional pressure drop P1 P2 across the turbine is given by Ap * Fig 3.1 Non - Dimensional Pressure Drop for Model 1 for Varying Flow Coefficients Efficiency = Maximum efficiency was found to be n ...
Page 168
... flow occurs . Flow Around the Airfoil The flow separation was more obvious in Model 2a than Model 1 for the same flow coefficients . Separation for both is strongly influenced by the tip gap vortex and stall at the tip of the blade ...
... flow occurs . Flow Around the Airfoil The flow separation was more obvious in Model 2a than Model 1 for the same flow coefficients . Separation for both is strongly influenced by the tip gap vortex and stall at the tip of the blade ...
Contents
VERY LARGE FLOATING STRUCTURE | 1 |
OMAE99OSU3057 | 9 |
OMAE99OSU3058 | 17 |
Copyright | |
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