- Figure Qla Iv Water Enters A Hydraulic Turbine Through A 27 5 Cm Diameter Pipe At A Rate Of 0 575 M S And Exits Throug 1 (42.19 KiB) Viewed 33 times
Figure Qla (iv) Water enters a hydraulic turbine through a 27.5-cm diameter pipe at a rate of 0.575 m's and exits throug
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Figure Qla (iv) Water enters a hydraulic turbine through a 27.5-cm diameter pipe at a rate of 0.575 m's and exits throug
Figure Qla (iv) Water enters a hydraulic turbine through a 27.5-cm diameter pipe at a rate of 0.575 m's and exits through a 22.5-cm diameter pipe (Figure Q1b). The pressure drop in the turbine is measured by a mercury manometer to be 1.175 m. For a combined turbine- generator efficiency of 82.5 percent, determine the net electric power output. Disregard the effect of the kinetic energy correction factors. Take the density of water to be 1000 kg/m³ and the density of mercury to be 13,560 kg/m³ (3.5 marks) 27.5 cm Turbine f Generator AP = 1.175 m Hg G 22.5 cm Figure Qlb