How Many CO2 Bubbles in a Glass of Beer?

The number of bubbles likely to form in a glass of beer is the result of the fine interplay between dissolved CO2, tiny particles or glass imperfections acting as bubble nucleation sites, and ascending bubble dynamics. Experimental and theoretical developments about the thermodynamic equilibrium of dissolved and gas-phase carbon dioxide (CO2) were made relevant to the bottling and service of a commercial lager beer, with 5% alcohol by volume and a concentration of dissolved CO2 close to 5.5 g L-1. The critical radius and the subsequent critical concentration of dissolved CO2 needed to trigger heterogeneous nucleation of CO2 bubbles from microcrevices once the beer was dispensed in a glass were derived. The subsequent total number of CO2 bubbles likely to form in a single glass of beer was theoretically approached as a function of the various key parameters under standard tasting conditions. The present results with the lager beer were compared with previous sets of data measured with a standard commercial Champagne wine (with 12.5% alcohol by volume and a concentration of dissolved CO2 close to 11 g L-1).

Automated summary

The number of bubbles in a glass of beer is influenced by dissolved CO2, tiny particles or glass imperfections as bubble nucleation sites, and bubble dynamics. Experimental and theoretical developments on the thermodynamic equilibrium of CO2 in beer were related to bottling and serving commercial lager beer. The total number of CO2 bubbles likely to form in a glass of beer can be predicted based on key parameters.