Calculating turbine RPM in a pipe with known air velocity and diameter

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To calculate turbine RPM in a closed pipe with known air velocity and diameter, it's essential to consider the resistive torque at the turbine's shaft, as lower resistance leads to higher RPM. The type of turbine, whether a propeller or fan blade, significantly influences RPM, particularly the pitch of the blades. A detailed calculation would involve modeling the lift on each blade and accounting for the dynamics of spinning blades affecting incoming fluid. Additionally, the interaction between the blades and airflow must be factored into the calculations. This discussion highlights the complexities involved in accurately determining turbine RPM in such conditions.
matth6197
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Hello,

I am trying to calculate the turbine RPM for a turbine in a closed pipe. I know the air velocity and pipe diameter. Can this be done?
 
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Welcome, @matth6197 !

The lighter the resistive torque or resistance at the shaft of the turbine the higher its rotational speed should be.
 
Is your turbine just a propeller or a fan blade. If so, then the pitch of the blades is the most significant factor in RPM.
 
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I hope somebody posts a detailed answer for how this calculation is done. I am dealing with a similar problem for wind turbines.

I expect you will somehow need to calculate the lift on each turbine blade multiply by the number of them and model it as a circular motion problem. but then you also need to take into account the change of lift per blade due to the fact the blade will spin, (whereas it was stationary at first) and also the effects of the spinning blades on the incoming fluid as well. All issues currently beyond my modelling abilities
 

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