DIVISION
- MPA
Materials Physics and Applications Division
GROUPS
- MPA-STC
Superconductivity Technology Center
- MPA-NHMFL
National Magnetic Field Laboratory
- MPA-CINT
Center for Integrated Nanotechnologies
- MPA-10
Condensed Matter & Thermal Physics
- MPA-11
Sensors & Electrochemical Devices
- MPA-MC
Materials Chemistry
MPA-10 CONTACTS
MPA-10 LINKS
MPA-10 NEWS
MPA-10 WEBPAGE
updates and corrections email:
tomasz@lanl.gov
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Thermoacoustics
Greg Swift - team leader
Scott Backhaus
David Gardner
John Clark
Mike Torrez
Carmen Espinoza
Drew Geller
Bill Ward
Team description:
A sound wave in a gas is usually regarded as consisting of coupled pressure and motion oscillations, but temperature oscillations are always present, too. When the sound travels in a gas in small channels, oscillating heat also flows to and from the channel walls. Combinations of all such oscillations in three dimensions produce a rich variety of “thermoacoustic” effects.
Our experiments usually involve pressurized inert gases, heat sources and sinks, high-power acoustic drivers, and sensors to measure pressures, temperatures, and sometimes mole fractions. Theory relies on the assumptions that the oscillations of pressure, temperature , density, velocity, and entropy are adequately represented as “small” sinusoidal functions of time. Surprisingly, the results of this approach are usefully accurate even for large oscillations with substantial harmonic content.
Thermoacoustic heat and temperature effects are too small to be obvious in the sound in air with which we communicate every day. However, in intense sound waves in pressurized gases, thermoacoustics can be harnessed to produce powerful engines, pulsating combustion, heat pumps, refrigerators, and mixture separators. Hence, much current thermoacoustics research is motivated by the desire to create new technology for the energy industry that is as simple and reliable as sound waves themselves.
More information about thermoacoustics at Los Alamos may be found at www.lanl.gov/thermoacoustics/
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MPA-10 TEAMS
Thermal Physics
Correlated Electrons
Actinide Chemistry
Low Energy Spectroscopy
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