Add to ORKGAt the NASA Lewis Research Center, high-intensity ultrasound is being used to create acoustic radiation pressure (ARP) on objects in liquids. It is also being used to create liquid currents or jets called acoustic streaming. NASA's interest in ARP includes remote-control agitation of liquid systems in space, such as in liquid space experiments and liquid propellant tanks. It can be used to eject or deploy droplets for droplet physics or droplet combustion experiments. It can also be used to manipulate bubbles, drops, and surfaces suspended in liquid experiments and propellant systems
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
High-intensity ultrasound waves can produce the effects of "Acoustic Radiation Pressure" (ARP) and "...
Fluids are difficult to manage in the space environment. Without gravity, the liquid and gas do not ...
Working in concert with the NASA Technology Transfer and Partnership Office, the Great Lakes Industr...
Acoustic liquid manipulation is a family of techniques that employ the nonlinear acoustic effects of...
The Acoustic Liquid Manipulation project at the NASA Glenn Research Center at Lewis Field is working...
One of the most critical issues when considering long-term space exploration missions is the managem...
One of the most critical issues when considering long-term space exploration missions is the managem...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
This paper reviews the literature regarding the use of acoustic droplet vaporization (ADV) in clinic...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
This paper reports a method to generate tunable bottle beams using an ultrasonic lens, by which the ...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
High-intensity ultrasound waves can produce the effects of "Acoustic Radiation Pressure" (ARP) and "...
Fluids are difficult to manage in the space environment. Without gravity, the liquid and gas do not ...
Working in concert with the NASA Technology Transfer and Partnership Office, the Great Lakes Industr...
Acoustic liquid manipulation is a family of techniques that employ the nonlinear acoustic effects of...
The Acoustic Liquid Manipulation project at the NASA Glenn Research Center at Lewis Field is working...
One of the most critical issues when considering long-term space exploration missions is the managem...
One of the most critical issues when considering long-term space exploration missions is the managem...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
This paper reviews the literature regarding the use of acoustic droplet vaporization (ADV) in clinic...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
This paper reports a method to generate tunable bottle beams using an ultrasonic lens, by which the ...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...
Micromachined pits on a substrate can be used to nucleate and stabilize microbubbles in a liquid exp...