Using EES or other software, adjust the runner blade trailing edge angle 1 of Prob. 1486E,
Question:
Using EES or other software, adjust the runner blade trailing edge angle β1 of Prob. 14–86E, keeping all other parameters the same, such that there is no swirl at the turbine outlet. Report β1 and the corresponding shaft power.
Data from Prob. 14–86E
A Francis radial-flow hydroturbine has the following dimensions, where location 2 is the inlet and location 1 is the outlet: r2 = 6.60 ft, r1 = 4.40 ft, b2 = 2.60 ft, and b1 = 7.20 ft. The runner blade angles are β2 = 82° and β1 = 46° at the turbine inlet and outlet, respectively. The runner rotates at ṅ = 120 rpm. The volume flow rate at design conditions is 4.70 × 106 gpm. Irreversible losses are neglected in this preliminary analysis. Calculate the angle α2 through which the wicket gates should turn the flow, where α2 is measured from the radial direction at the runner inlet (Fig. P14–83). Calculate the swirl angle α1, where α1 is measured from the radial direction at the runner outlet (Fig. P14–83). Does this turbine have forward or reverse swirl? Predict the power output (hp) and required net head (ft).
FIGURE P14–83
Step by Step Answer:
Fluid Mechanics Fundamentals And Applications
ISBN: 9780073380322
3rd Edition
Authors: Yunus Cengel, John Cimbala