Determining the acoustics and physics at play behind the liquid sloshing and popping sounds that occur while opening a swing-top bottle of beer
From the Journal: Physics of Fluids
WASHINGTON, March 18, 2025 — In a fun experiment, Max Koch, a researcher at the University of Göttingen in Germany — who also happens to be passionate about homebrewing — decided to use a high-speed camera to capture what occurs while opening a swing-top bottle of homebrew.
When Robert Mettin, who leads the Ultrasound and Cavitation group at the university’s Third Institute of Physics, Biophysics, suggested that Koch should submit the findings to the special “kitchen flows” issue of Physics of Fluids, from AIP Publishing, Koch and his colleagues chose to expand on the home experiment and delve into the novel acoustics and physics at play.
The group found that the sound emitted by opening a pressurized bottle with a swing-top lid isn’t a single shockwave, but rather a very quick “ah” sound. Their high-speed video recordings captured condensation within the bottleneck that vibrated up and down in a standing wave. These recordings, along with high-fidelity audio recordings and computational fluid dynamics simulations, confirmed that this wave is the origin of the “ah” sound.
“The pop’s frequency is much lower than the resonation if you blow on the full bottle like a whistle,” said Koch. “This is caused by the sudden expansion of the carbon dioxide and air mixture in the bottle, as well as a strong cooling effect to about minus 50 degrees Celsius, which reduces sound speed. The decibels it emits are high — inside the bottleneck it’s as loud, or even louder, than a turbine of an airplane within 1 meter, but it doesn’t last long.”
After opening the bottle, the dissolved carbon dioxide starts to form inside the beer and triggers the liquid level to rise. The motion of the bottle also causes the liquid to slosh, and the group’s high-speed recordings captured this wave within the bottleneck.
Additionally, they noticed that the momentum transfer of the lid hitting the glass with its sharp edge after popping might also trigger gushing, due to the enhanced formation of bubbles.
“It was a challenge to explain the low frequency of the ‘ah’ sound emitted by the opening and find a simple model to explain the values,” Koch said. “One thing we didn’t resolve is that our numerical simulations showed an initial strong peak in the acoustic emission before the short ‘ah’ resonance, but this peak was absent in the experimentation.”
Simulations aside, Koch joked that another great challenge was drinking the homebrewed beverages and still maintaining clarity during the experiment.
###
Article Title
On the popping sound and liquid sloshing when opening a beer
Authors
Max Koch, Matti Tervo, Rafael Manso Sainz, Christiane Lechner, and Robert Mettin
Author Affiliations
University of Göttingen