Примери за използване на Liquid jets на Английски и техните преводи на Български
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Liquid Jets: up to 1000km/hr.
Smaller particles are accelerated with the liquid jets and collide at high speeds.
The liquid jets resulting from ultrasonic cavitation can reach speeds of up to 1000km/hr.
During this implosion very high pressures andhigh speed liquid jets are generated locally.
Liquid jets of up to 1000km/h and local pressures of up to 1000atm lead to rapid fatigue on the material surface.
Furthermore, micro-turbulences and liquid jets cause intense agitation and mass transfer.
Ultrasonic caviatation results in extreme temperature andpressure differentials and high-speed liquid jets.
Ultrasonic cavitation in liquids causes high speed liquid jets of up to 1000km/h approx.
The high-speed liquid jets created by the ultrasonic cavitation increase mass transfer at boundary layers.
During the implosion very high pressures andhigh speed liquid jets are produced locally.
The impingement of cavitational liquid jets and shock waves of up to 104atm can create localized shear forces, erosion and surface pitting.
Droplets and particles of the liquid are accelerated into liquid jets with velocities of up to 208m/s.
Cavitation creates high shear forces and extreme conditions such as very high temperatures and cooling rates,pressures and liquid jets.
Furthermore, strong hydrodynamic shear-forces and liquid jets with up to 280m/s velocity are generated.
The bubble collapse creates extreme conditions of differentials of pressure andtemperature as well as shock waves and strong liquid jets.
Ultrasonic cavitation in liquids causes high speed liquid jets of up to 1000km/hr(approx. 600mph).
These alternating high pressure andlow pressure cycles of 20,000 times per second of sonication create intense shear forces and liquid jets.
The implosion of the cavitation bubble also results in microturbulences, liquid jets of up to 280m/s velocity and resulting shear forces.
Acoustic cavitation creates extreme conditions, including very high temperature and pressure differentials, turbulences,shear forces and liquid jets.
Ultrasonic cavitation causes high-speed liquid jets, high hydraulic shear and inter-particle collisions resulting in particle surface cleaning.
As a result of these implosions, very high pressures andtemperatures occur in combination with liquid jets of up to 1000km/h.
Impact: Liquid jets and streaming generated by ultrasonic cavitation accelerate solids in liquids, which leads subsequently to interparticluar collision.
As ultrasonic cavitation generates high-velocity cavitational streaming with up to 1000km/h,the cavitational liquid jets accelerate particles.
Solids such as particles are accelerated by the liquid jets and are milled by interparticular collision and abrasion increasing the active surface area and thereby mass transfer.
Acoustic or ultrasonic cavitation generates locally extreme conditions such as super-high temperature andpressure differentials, liquid jets and shear forces.
Ultrasonically generated cavitation creates high shear forces,micro-turbulences, liquid jets, and locally confined, extreme temperature and pressure differentials.
The collapse of cavitation bubbles near the cell walls disrupts the cell structure andenable for a good mass transfer due to the ultrasonic liquid jets.
For biological matter such as plant materials,the high velocity liquid jets and alternating pressure cycles disrupt the cell walls and release the intracellular material.
In an acoustic cavitation field, extreme conditions- including very high temperature and pressure differentials, turbulences,shear forces and liquid jets- can be measured.
The effects can be used in liquids for many processes, e.g. for mixing and blending, deagglomeration, milling and cell disintegration.In particular the high shear of the liquid jets causes fissure at particle surfaces and inter-particle collisions.