Please explain a little your answer. Question 11. The incoming wind at 1 bar, 20 °Cand 12 m/s is swept along a windturbine of 2 blades of 50 m diameter.If the air velocity at the turbinedownstream is 8 m/s, calculate:a. The maximum power generated.O 1367870O 1190 kW Question 21. The incoming wind at 1 bar, 20 °Cand 12 m/s is swept along a windturbine of 2 blades of 50 m diameter.If the air velocity at the turbinedownstream is 8 m/s, calculate theangular rotational speed at theoptimum power.O 2 rad/sO 3.016 rad/sO 4 rad/s

Note:- Hi! Thank you for the question As per the honor code, We’ll answer the first question since…

1. The incoming wind at 1 bar, 20 °C and 12 m/s is swept along a wind turbine of 2 blades of 50 m diameter. If the air velocity at the turbine downstream is 8 m/s, calculate: a. The maximum power generated. O 1367 870 O 1190 kW

1. The incoming wind at 1 bar, 20 °C and 12 m/s is swept along a wind turbine of 2 blades of 50 m diameter. If the air velocity at the turbine downstream is 8 m/s, calculate: a. The maximum power generated. O 1367 870 O 1190 kW

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Please explain a little your answer.

Question 2
1. The incoming wind at 1 bar, 20 °C
and 12 m/s is swept along a wind
turbine of 2 blades of 50 m diameter.
If the air velocity at the turbine
downstream is 8 m/s, calculate the
angular rotational speed at the
optimum power.
O 2 rad/s
O 3.016 rad/s
O 4 rad/s

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A liquid whose specific gravity is 2.0, is flowing in a 50mm diameter pipe. The total head at a given point was found to be 17.5m. That point is 3m above the datum and the pressure in the pipe is 65.6KP.. Compute the power in that point of the pipe. Hide answer choices a A) 13.37 HP B) 14.99 HP 8.87 HP D) 11.19 HP E No Answer among the choices O O O