Maximal power per device area of a ducted turbine

Abstract: Abstract. The aerodynamic design of a ducted wind turbine for maximum total power coefficient was studied numerically using the axisymmetric Reynolds-averaged Navier-Stokes equations and an actuator disc model. The total power coefficient characterizes the rotor power per total device area, rather than the rotor area. This is a useful metric to compare the performance of a ducted wind turbine with an open rotor and can be an important design objective in certain applications. The design variables included the … Show more

“…The purpose of a wind turbine is to maximize the annual energy production (AEP). Figure 11 illustrates CFD results from Bagheri-Sadeghi et al [17] for the optimal design geometry and the effect of varying the thrust coefficient on that optimum case. A value of CT = 0 corresponds to no actuator disk present in the flow field.…”

“…Figure 11. Effect of thrust coefficient on turbine efficiency for the optimal Cpt design geometry [17]…”

On the underperformance of the full-scale Clarkson University 3 meter ducted turbine

“…The purpose of a wind turbine is to maximize the annual energy production (AEP). Figure 11 illustrates CFD results from Bagheri-Sadeghi et al [17] for the optimal design geometry and the effect of varying the thrust coefficient on that optimum case. A value of CT = 0 corresponds to no actuator disk present in the flow field.…”

“…Figure 11. Effect of thrust coefficient on turbine efficiency for the optimal Cpt design geometry [17]…”

On the underperformance of the full-scale Clarkson University 3 meter ducted turbine