As shown in the figure below, water behind a dam enters an intake pipe at a pressure of 24 psia and velocity of 5 ft/s, flows through a hydraulic turbine-generator, and exits at a point z₁ = 160ft below the intake at 19 psia, 45 ft/s, and a specific volume of 0.01602 ft³/lb. The diameter of the exit pipe is 5 ft and the local acceleration of gravity is 32.2 ft/s².

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As shown in the figure below, water behind a dam enters an intake pipe at a pressure of 24 psia and velocity of 5 ft/s, flows through a hydraulic turbine-generator, and exits at a point z = 160ft below the intake at 19 psia, 45 ft/s, and a specific volume of 0.01602 ft3/lb. The diameter of the exit pipe is 5 ft and the local acceleration of gravity is 32.2 ft/s?. Water Dam P1 = 24 psia V] = 5 f/'s Generator i Turbine P2 = 19 psia 5 = 0.01602 ft³¾b V, = 45 ft/s Water D, =5 ft Evaluating the electricity generated at 8.5 cents per kW · h, determine the value of the power produced, in $/day, for operation at steady state and in the absence of internal irreversibilities. Value = $ i /day