A laboratory study models the flow around the pier of an off-shore wind turbine with a scaled model of Ir=20. Determine the model velocity (VM) past the pier, if the water travels with V=2.1 km/h past the prototype pier. You can assume that water with the same fluid properties is used in both model and prototype with density of P = 999 kg/m³ and dynamic viscosity of 7w = 0.001 Pa.s. HINT: the flow around the pier is described by the Reynolds number. VM = m/s (Provide your answer to 3 decimal places)

Structural Analysis
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Author:KASSIMALI, Aslam.
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Chapter2: Loads On Structures
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A laboratory study models the flow around the pier of an off-shore wind turbine with a scaled model of Ir = 20. Determine the model velocity (VM) past the pier, if the water travels with V = 2.1 km/h past the prototype pier. You can assume that water with the
same fluid properties is used in both model and prototype with density of pw = 999 kg/m³ and dynamic viscosity of n = 0.001 Pa . s.
HINT: the flow around the pier is described by the Reynolds number.
VM =
m/s
(Provide your answer to 3 decimal places)
Transcribed Image Text:A laboratory study models the flow around the pier of an off-shore wind turbine with a scaled model of Ir = 20. Determine the model velocity (VM) past the pier, if the water travels with V = 2.1 km/h past the prototype pier. You can assume that water with the same fluid properties is used in both model and prototype with density of pw = 999 kg/m³ and dynamic viscosity of n = 0.001 Pa . s. HINT: the flow around the pier is described by the Reynolds number. VM = m/s (Provide your answer to 3 decimal places)
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