Ask Question
PhysicsPhysics
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

+4
Answers (1)
  1. 8 May, 08:15
    0
    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
Know the Answer?
Not Sure About the Answer?
Get an answer to your question ✅ “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 ...” in 📙 Physics if there is no answer or all answers are wrong, use a search bar and try to find the answer among similar questions.
Search for Other Answers
You Might be Interested in
A rectangular current loop is located near a long, straight wire that carries a current of 12 A. The current in the loop is 25 A. Determine the magnitude of the net magnetic force that acts on the loop.
Answers (1)
In your own words describe an interaction between the chromosphere and the hydrosphere
Answers (1)
A ball is released from a hot air balloon moving downward with a velocity of - 10.0 meters/second and a height of 1,000 meters. How long did it take the ball to reach the surface of Earth? Given: g = - 9.8 meters/second2
Answers (1)
What is the current in a circuit that has voltage of 121.3 V and a total resistance of 56.3 Ohms? Include units.
Answers (1)
How does magnet polarity affect the current flowing in a loop of wire?
Answers (1)
New Questions in Physics
Explain the relationship between motion and frame of reference.
Answers (1)
Two students are looking at a brightly lit full Moon, illuminated by the reflected light from the Sun. Consider thefollowing discussion between the two students about what the spectrum of moonlight would look like.
Answers (1)
When performing a battery load test, what should the load be set to?
Answers (1)
If you push on a wall of a building what will happen
Answers (1)
A conductor, with outer surface labelled a, contains a cavity, inner surface b. In this cavity there is a conducting sphere of radius r, and surface c. The sphere carries a charge of 1 C, while the conductor a charge of 2 C.
Answers (1)
Home » Physics » 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.
Sign Up Forgot Password?