Increasing of craft beer shelf life, with and without alcohol, through immersion batch pasteurization

Abstract

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Aim: This study delves into the pasteurization process for craft beer, exploring its impact on containers and closures. Focusing on small breweries, it have been assess various treatments and find that batch immersion pasteurization post-bottling is optimal. Commercial crowns withstand pasteurization without altering the inner plastic material, crucial for extending the shelf life of craft beers, especially non-alcoholic variants. Methods: Artisanal pasteurization of craft beer batches was performed after evaluating available methods. Given the lack of literature on craft beer pasteurization, this study offers essential insights for the artisanal beer sector. Analyses of crown corks pre- and post-pasteurization were conducted using differential scanning calorimetry (DSC) and Fourier transform infrared spectroscopy (FTIR). Organoleptic analysis of pasteurized beers was also conducted. Results: DSC results indicate the film’s glass transition temperature (Tg) is around 62°C, while pasteurization at 66°C for 30 min did not degrade the polymer. Pressure retention and FTIR spectra show no clear differences between reference, pasteurized, and unpasteurized samples. Immersion pasteurization at 66°C with the analysed crowns is suitable for bottling craft beers without affecting polyvinyl chloride (PVC). Conclusions: The study concludes that the chosen pasteurization process does not impact crown PVC, ensuring its suitability for craft beer bottling. Severe pasteurization can alter beer qualities, but at 66°C, no such effects were observed in the organoleptic analysis.