Hedwig Neven scite author profile

The aging and consequent changes in flavor molecules of a top-fermented beer were studied. Different aging conditions were imposed on freshly bottled beer. After 6 months of aging, the concentration changes were recorded for acetate esters, ethyl esters, carbonyls, Maillard compounds, dioxolanes, and furanic ethers. For some flavor compounds, the changes with time of storage were monitored at different temperatures, either with CO(2) or with air in the headspace of the bottles. For some molecules a relationship was determined between concentration changes and sensory evaluation results. A decrease in volatile esters was responsible for a reduced fruity flavor during aging. On the contrary, various carbonyl compounds, some ethyl esters, Maillard compounds, dioxolanes, and furanic ethers showed a marked increase, due to oxidative and nonoxidative reactions. A very high increase was found for furfural, 2-furanmethanol, and especially the furanic ether, 2-furfuryl ethyl ether (FEE). For FEE a flavor threshold in beer of 6 mug/L was determined. In the aged top-fermented beer, FEE concentrations multiple times the flavor threshold were observed. This was associated with the appearance of a typical solvent-like flavor. As the FEE concentration increased with time at an almost constant rate, with or without air in the headspace, FEE (and probably other furanic ethers) is proposed as a good candidate to evaluate the thermal stress imposed on beer.

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Bioflavoring and beer refermentation

Vanderhaegen

Neven

Coghe

et al. 2003

Applied Microbiology and Biotechnology

111

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Various techniques are used to adjust the flavors of foods and beverages to new market demands. Although synthetic flavoring chemicals are still widely used, flavors produced by biological methods (bioflavors) are now more and more requested by consumers, increasingly concerned with health and environmental problems caused by synthetic chemicals. Bioflavors can be extracted from plants or produced with plant cell cultures, microorganisms or isolated enzymes. This Mini-Review paper gives an overview of different systems for the microbial production of natural flavors, either de novo, or starting with selected flavor precursor molecules. Emphasis is put on the bioflavoring of beer and the possibilities offered by beer refermentation processes. The use of flavor precursors in combination with non-conventional or genetically modified yeasts for the production of new products is discussed.

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Furfuryl Ethyl Ether: Important Aging Flavor and a New Marker for the Storage Conditions of Beer

Vanderhaegen

Neven

Daenen

et al. 2004

J. Agric. Food Chem.

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Recently, it was reported that furfuryl ethyl ether is an important flavor compound indicative of beer storage and aging conditions. A study of the reaction mechanism indicates that furfuryl ethyl ether is most likely formed by protonation of furfuryl alcohol or furfuryl acetate followed by S(N)2-substitution of the leaving group by the nucleophilic ethanol. For the reaction in beer, a pseudo-first-order reaction kinetics was derived. A close correlation was found between the values predicted by the kinetic model and the actual furfuryl ethyl ether concentration evolution during storage of beer. Furthermore, 10 commercial beers of different types, aged during 4 years in natural conditions, were analyzed, and it was found that the furfuryl ethyl ether flavor threshold was largely exceeded in each type of beer. In these natural aging conditions, lower pH, darker color, and higher alcohol content were factors that enhanced furfuryl ethyl ether formation. On the other hand, sulfite clearly reduced furfuryl ethyl ether formation. All results show that the furfuryl ethyl ether concentration is an excellent time-temperature integrator for beer storage.

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Dynamic Light Scattering (DLS) as a Tool to Detect CO₂-Hydrophobin Structures and Study the Primary Gushing Potential of Beer

Deckers

Lorgouilloux

Gebruers

et al. 2011

Journal of the American Society of Brewing Chemists

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Hedwig Neven

The chemistry of beer aging – a critical review

Evolution of Chemical and Sensory Properties during Aging of Top-Fermented Beer

Bioflavoring and beer refermentation

Furfuryl Ethyl Ether: Important Aging Flavor and a New Marker for the Storage Conditions of Beer

Dynamic Light Scattering (DLS) as a Tool to Detect CO₂-Hydrophobin Structures and Study the Primary Gushing Potential of Beer

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About

Hedwig Neven

The chemistry of beer aging – a critical review

Evolution of Chemical and Sensory Properties during Aging of Top-Fermented Beer

Bioflavoring and beer refermentation

Furfuryl Ethyl Ether: Important Aging Flavor and a New Marker for the Storage Conditions of Beer

Dynamic Light Scattering (DLS) as a Tool to Detect CO2-Hydrophobin Structures and Study the Primary Gushing Potential of Beer

Contact Info

Product

Resources

About

Dynamic Light Scattering (DLS) as a Tool to Detect CO₂-Hydrophobin Structures and Study the Primary Gushing Potential of Beer