undular hydraulic jump - meaning and definition. What is undular hydraulic jump
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What (who) is undular hydraulic jump - definition

PHENOMENON OCCURING WHEN LIQUID AT HIGH VELOCITY DISCHARGES INTO A ZONE OF LOWER VELOCITY
Hydraulic jump in rectangular channel
  • [[Burdekin Dam]] on the [[Burdekin River]] in [[Queensland]], [[Australia]] showing pronounced hydraulic jump induced by down-stream obstructions and a gradient change.

Hydraulic machinery         
  • An [[excavator]]; main hydraulics: Boom cylinders, swing drive, cooler fan, and trackdrive
  • An [[exploded view]] of an external gear pump.
  • Fundamental features of using hydraulics compared to mechanics for force and torque increase/decrease in a transmission.
  • Open loop and closed loop circuits
  • scissor lift]]
MACHINERY AND TOOLS THAT USE LIQUID FLUID POWER TO DO SIMPLE WORK
Water motors; Industrial Hydraulics; Hydraulic machine; Hydraulic equipment; Hydraulic circuit; Hydraulic drive system; Hydraulic drive; Hydraulic line; Hydraulic hose; Hydraulic power transmission; Hydrostatic drive
Hydraulic machines use liquid fluid power to perform work. Heavy construction vehicles are a common example.
Hydraulic fill         
  • Hydraulic sluicing
EMBANKMENT
Hydraulic sluicing
Hydraulic fill is a means of selectively emplacing soil or other materials using a stream of water. It is also a term used to describe the materials thus emplaced.
Hydraulic structure         
ARTIFICIAL STRUCTURE WHICH DISRUPTS THE NATURAL FLOW OF WATER
Hydraulic structures
A hydraulic structure is a structure submerged or partially submerged in any body of water, which disrupts the natural flow of water. They can be used to divert, disrupt or completely stop the flow.

Wikipedia

Hydraulic jump

A hydraulic jump is a phenomenon in the science of hydraulics which is frequently observed in open channel flow such as rivers and spillways. When liquid at high velocity discharges into a zone of lower velocity, a rather abrupt rise occurs in the liquid surface. The rapidly flowing liquid is abruptly slowed and increases in height, converting some of the flow's initial kinetic energy into an increase in potential energy, with some energy irreversibly lost through turbulence to heat. In an open channel flow, this manifests as the fast flow rapidly slowing and piling up on top of itself similar to how a shockwave forms.

It was first observed and documented by Leonardo da Vinci in the 1500s. The mathematics were first described by Giorgio Bidone of Turin University when he published a paper in 1820 called Experiences sur le remou et sur la propagation des ondes.

The phenomenon is dependent upon the initial fluid speed. If the initial speed of the fluid is below the critical speed, then no jump is possible. For initial flow speeds which are not significantly above the critical speed, the transition appears as an undulating wave. As the initial flow speed increases further, the transition becomes more abrupt, until at high enough speeds, the transition front will break and curl back upon itself. When this happens, the jump can be accompanied by violent turbulence, eddying, air entrainment, and surface undulations, or waves.

There are two main manifestations of hydraulic jumps and historically different terminology has been used for each. However, the mechanisms behind them are similar because they are simply variations of each other seen from different frames of reference, and so the physics and analysis techniques can be used for both types.

The different manifestations are:

  • The stationary hydraulic jump – rapidly flowing water transitions in a stationary jump to slowly moving water as shown in Figures 1 and 2.
  • The tidal bore – a wall or undulating wave of water moves upstream against water flowing downstream as shown in Figures 3 and 4. If one considers a frame of reference which moves along with the wave front, then the wave front is stationary relative to the frame and has the same essential behavior as the stationary jump.

A related case is a cascade – a wall or undulating wave of water moves downstream overtaking a shallower downstream flow of water as shown in Figure 5. If considered from a frame of reference which moves with the wave front, this is amenable to the same analysis as a stationary jump.

These phenomena are addressed in an extensive literature from a number of technical viewpoints.

Hydraulic Jump is used sometimes in mixing chemicals.