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8 May, 08:06

Two sections, A and B, are 0.5 km apart along a 0.05 m diameter rough concrete pipe. A is 115 m higher than B, the water temperature is 4 °C, and the pressure heads measured at A and B are 21.7 m and 76.1 m, respectively. Assume minor losses are negligible. Determine the flow rate through the pipe

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  1. 8 May, 08:15
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    Q = 178.41 m^3 / s

    Explanation:

    Given:

    Length of the pipe L = 0.5 km Diameter D = 0.05 m Pressure head @ A (P_a / γ) = 21.7 m Pressure head @ B (P_b / γ) = 76.1 m Elevation head Z_a = 115 m Elevation head Z_b = 0 m Minor Losses = 0 m Major Losses = f*L*V^2 / 2*D*g = (500/2*0.05*9.81) * f*V^2 = 509.684*f*V^2 Velocity at cross section A and B: V_a = V_b m/s Roughness e = 2.5 mm Dynamic viscosity of water u = 8.9*10^-4 Pa-s Density of water p = 997 kg/m^3

    Find:

    Flow Rate Q = pi*V*D^2/4 m^3/s?

    Solution:

    We will use the Head Balance as derived from Energy Balance:

    (P_a / γ) - (P_b / γ) + (V_a^2 - V_b^2) / 2*g + (Z_a - Z_b) = Major Losses

    21.7 - 76.1 + 0 + 115-0 = 509.684*f*V^2

    f*V^2 = 0.18897199

    To find correction factor f which is a function of e / D = 0.05, and Reynold's number which is unknown. In such cases we will guess a value of f and perform iterations as follows:

    Guess: f_o = 0.072 (Moody's Chart @ e / D = 0.05 and most turbulent function).

    V_o = sqrt (0.18897199 / 0.072) = 1.28504 m/s

    Re_o = p*V_o*D / u = 997*1.28504*0.05 / 8.9*10^-4 = 71976.6

    1st iteration

    f_1 = g (Re_o, e/d) = 0.0718702 (Moody's Chart)

    V_1 = sqrt (0.18897199 / 0.0718702) = 1.621528 m/s

    Re_1 = p*V_1*D / u = 997*1.621528*0.05 / 8.9*10^-4 = 90823.81698

    2nd iteration

    f_2 = g (Re_1, e/d) = 0.0718041 (Moody's Chart)

    V_2 = sqrt (0.18897199 / 0.0718041) = 1.662273585 m/s

    Re_2 = p*V_2*D / u = 997*1.662273585*0.05 / 8.9*10^-4 = 90865.54854

    3rd iteration

    f_3 = g (Re_2, e/d) = 0.0718040 (Moody's Chart)

    V_3 = sqrt (0.18897199 / 0.0718040) = 1.622274714 m/s

    Re_3 = p*V_3*D / u = 997*1.622274714*0.05 / 8.9*10^-4 = 90865.61182

    We can observe the convergence of V to 1.6222 m / s. Hence, the required velocity will be used to calculate the Flow rate Q:

    Q = pi*V*D^2/4 = pi*1.6222*0.05^2 / 4

    Q = 178.41 m^3 / s
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