That branch of science, or of engineering, which treats of fluids in motion, especially of water, its action in rivers and canals, the works and machinery for conducting or raising it, its use as a prime mover, and the like.
That branch of science or engineering which treats water or other fluid in motions.
That branch of science or of engineering which deals with water or other fluid in motion.
An engineering process used to convert a volume of water moving down a channel into a depth of water so that it can be drawn on a map of flooding areas. This process is done using a computer model called HEC-RAS. Back
A system which uses liquid under high pressure to move or operate equipment.
the branch of engineering that deals with water or other fluid in motion.
The operation of machinery through the force of a liquid.
Branch of physics having to do with the mechanical properties of water and other liquids in motion.
Study of the behaviour of flowing water.
study of the mechanics of fluids
Transmission of energy or power through a liquid.
1. The study of liquids and their use to transmit force and motion. 2. Hydraulic ram units, installed in a low rider at each suspension point, to lower or raise the ride height. Also referred to as hydro.
Using fluids to transmit and regulate the forces in a machine or device.
Study of practical applications of liquid in motion.
The use of pressurized liquid to transfer force or motion.
Study of fluids under pressure and the way they transmit force or energy.
The science dealing with the transmission of force through the medium of a contained fluid.
The study of the mechanical properties of liquids, including energy transmission and effects of the flow of water. ( hydraulique)
1. The science of the conveyance of liquids through pipes. 2. The branch of physics having to do with the mechanical properties of water and other liquids in motion.
A field of study dealing with the flow pattern and rate of water movement based on the principles of fluid mechanics.
The study of the physical behavior of water in terms of its flow paths, velocities, and stages. Surface water hydraulics are basically controlled by relatively few parameters, some of which have so far only been estimated by empirical methods. These are: slope, surface roughness, depth of flow, channel shape and size, and sediment load. Each of these parameters is interrelated, so that the effect of slope is generally measured while holding the other parameters constant, and so forth.
The study of fluids at rest or in motion. Pressure. The force exerted per unit area of a fluid. If pressure is applied to the surface of a fluid, this pressure is transmitted undiminished in all directions (Pascal's principle).
In the Linde context this means all drive, transmission and control components of a vehicle employing fluid pressure to generate and transmit power.
engineering science pertaining to liquid pressure and flow.
Branch of fluid mechanics that deals with the flow of water in open channels, closed conduits, hydraulic structures, and hydraulic machines (pumps, turbines, presses, etc.).
Producing mechanical motion by using liquids under pressure.
If energy transfer is in the form of pressurized liquid flow then it is called hydraulics. The oil is kept in a reservoir and the pump draws it in and pushes it into the system. Because the oils can't escape, pressure builds up and the energy stored in the oil is then used to operate machinery, using high pressure hoses, valves and actuators.
Hydraulics is a topic of science and engineering subject dealing with the mechanical properties of liquids. Hydraulics is part of the more general discipline of fluid power.