Quantifying Dissolved Carbon Dioxide Concentrations in Fermenting Red Musts
Copyright © 2010 American Society for Enology and Viticulture. The definitive version is available at http://asev.org/national-conference-2011/technical-abstracts/
The concentration of dissolved carbon dioxide (DCOn2) is recognized as being high during alcoholic fermentation, but there is little data to indicate the actual concentrations and how they vary with extent of the fermentation or winemaking operations. The presence of the inert gas is important in protecting the juice or must from oxidation. In addition, carbon dioxide (COn2) is a recognized greenhouse gas, and the contribution of fermenting juice and musts to atmospheric COn2 cannot be put in perspective or modeled unless one has a better idea of DCOn2 and whether supersaturation is occurring throughout fermentation or for part of the time. This study monitored DCOn2 concentrations on a daily basis in four red musts during alcoholic fermentation in a commercial winery. Dissolved carbon dioxide concentrations generally peaked at around 2000 mg/L, but the maximum was not associated with a particular stage of fermentation. Musts tended to be supersaturated with DCOn2 when the rate of fermentation was high and/or the temperature increased rapidly and after a rack and return. Upon completion of alcoholic fermentation, DCOn2 concentrations generally decreased to between 400 and 1000 mg/L. During malolactic fermentation, DCOn2 concentrations varied between 1000 and 1500 mg/L.
David M. Goldfarb, Steven D. Colome, Marci Norkin, and Geraldine S. P. Ritchie. "Quantifying Dissolved Carbon Dioxide Concentrations in Fermenting Red Musts" 2010
Available at: http://works.bepress.com/gsritchi/48