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Energy Dissipation | Civil Engineering Optional Notes for UPSC PDF Download

Introduction

  • Water flowing over a spillway has very high kinetic energy due to conversion of potential energy to kinetic energy.
  • If discharged directly into downstream channel, can cause serious scour of channel bed.
  • To protect the channel bed, kinetic energy needs to be dissipated before discharge into the downstream channel.

Types of Energy Dissipating Devices

  1. Devices using a hydraulic jump for energy dissipation
  2. Devices using a bucket for energy dissipation

Choice depends on tailwater depth and characteristics of hydraulic jump formed.

Hydraulic Jump Characteristics

  • A hydraulic jump is a sudden, turbulent rise of water occurring when flow changes from supercritical to subcritical state.
  • Accompanied by extremely turbulent rollers and significant energy dissipation.

Energy Dissipation | Civil Engineering Optional Notes for UPSC

Energy Dissipation | Civil Engineering Optional Notes for UPSC

Momentum equation will be applied to the control volume taken at the hydraulic jump section for a unit width perpendicular to the control volume,Energy Dissipation | Civil Engineering Optional Notes for UPSC

On deriving the above equation, we finally get the following result.

Energy Dissipation | Civil Engineering Optional Notes for UPSC

The ratio of flow depths after and before the hydraulic jump (y2/y1) is a function of the Froude number of the subcritical flow before hydraulic jump.

Types of Hydraulic Jumps

  1. Undular Jump (F1 = 1.0 to 1.7): Undulating water surface, low energy dissipation (~5%)

  2. Weak Jump (F1 = 1.7 to 2.5): Small rollers, smooth downstream surface, energy dissipation ~20%

  3. Oscillating Jump (F1 = 2.5 to 4.5): Oscillating jet, energy dissipation 20-40%

  4. Steady Jump (F1 = 4.5 to 9.0): Stable and balanced, good performance, energy dissipation 45-70%

  5. Strong Jump (F1 > 9.0): Rough action, strong surface waves downstream, energy dissipation 70-85%

Hydraulic Jump as an Energy Dissipater

  • Analytical equation for energy dissipated with hydraulic jump: ΔE = (y2 - y1)^3 / (4y1y2)
  • Power lost by hydraulic jump: P = γw * Q * ΔE

Length of Hydraulic Jump

Empirical equations:

  •      a. Safranez equation: L = 5.2y2
  •      b. Bakhmeteff equation: L = 5(y2 - y1)
  •      c. Smetana equation: L = 6(y2 - y1)
  •      d. Page equation: L = 5.6y2

Solved Example: If the Froude number at the drop of a hydraulic jump pool is 6 and the water depth is 0.50 m, find out the length of the hydraulic jump. Calculate the power dissipated with the hydraulic jump if the discharge on the spillway is 1600 m^3/s.
Solution:
Given:
Froude number (F1) = 6
Initial water depth (y1) = 0.50 m
Discharge (Q) = 1600 m3/s
Calculate the depth after the hydraulic jump (y2) using the equation:
(y2/y1) = (√(1 + 8F12) + 1)/2

Substituting the values:
y2/y1 = (√(1 + 8 * 62) + 1)/2
= (√(1 + 288) + 1)/2
= (√289)/2
= 8.5
y2 = 8.5 * y1
= 8.5 * 0.50 m
= 4.0 m

Calculate the length of the hydraulic jump using different empirical equations:
a) Safranez equation: L = 5.2y2 = 5.2 * 4.0 m = 20.8 m
b) Bakhmeteff equation: L = 5(y2 - y1) = 5(4.0 - 0.5) m = 17.5 m
c) Smetana equation: L = 6(y2 - y1) = 6(4.0 - 0.5) m = 21.0 m
d) Page equation: L = 5.6y2 = 5.6 * 4.0 m = 22.4 m
For a conservative design, the longest result is chosen.
Therefore, the length of the hydraulic jump is taken as L = 22.4 m.

Calculate the energy dissipated as head (ΔE) using the equation:

ΔE = (y2 - y1)3 / (4y1y2)
Substituting the values:
ΔE = (4.0 - 0.5)3 / (4 * 0.5 * 4.0)
= 5.36 m
Calculate the power dissipated (P) using the equation:
P = γw * Q * ΔE
Substituting the values:
P = 9.81 kN/m3 * 1600 m^3/s * 5.36 m
= 84,131 kW
Therefore, the length of the hydraulic jump is 22.4 m, and the power dissipated with the hydraulic jump is 84,131 kW for the given conditions.

The document Energy Dissipation | Civil Engineering Optional Notes for UPSC is a part of the UPSC Course Civil Engineering Optional Notes for UPSC.
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FAQs on Energy Dissipation - Civil Engineering Optional Notes for UPSC

1. What is a hydraulic jump?
Ans. A hydraulic jump is a phenomenon that occurs when a high-velocity flow abruptly encounters a slower-moving or stationary flow, resulting in a rapid increase in water depth.
2. What are the types of hydraulic jumps?
Ans. The two main types of hydraulic jumps are standing and moving jumps. Standing jumps occur in a fixed location, while moving jumps travel downstream.
3. How do hydraulic jumps help in energy dissipation?
Ans. Hydraulic jumps help in energy dissipation by converting the kinetic energy of the high-velocity flow into potential and turbulent energy, resulting in a decrease in flow velocity and energy loss.
4. How is energy dissipation important in hydraulic engineering?
Ans. Energy dissipation is crucial in hydraulic engineering as it helps prevent erosion, sedimentation, and damage to structures by reducing the energy of flowing water in hydraulic systems.
5. How can hydraulic jumps be utilized in practical applications?
Ans. Hydraulic jumps can be used in spillways, energy dissipators, and stilling basins to control water flow, prevent erosion, and protect downstream structures in various hydraulic engineering projects.
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