Formation of temperature gradients in large- and small-scale red wine fermentations during cap management
Formation of temperature gradients in large- and small-scale red wine fermentations during cap management
Background and Aims: Red wine fermentations are not a homogenous mixture in terms of both density (grape solids vs liquid) and temperature distribution. Winemakers practise cap management techniques to facilitate the extraction of flavour and colour, but also to achieve a more uniform temperature throughout the fermentation tank. The aim of this work was to provide, for the first time, a detailed definition of the temperature gradients in a two-dimensional cross-section of several fermentations and to determine the impact of typical cap management techniques on these. Methods and Results: Commercial (3450 L) and research (50 L) red wine fermentations were monitored with a handheld thermocouple at defined positions in the tank to yield temperature profiles for a virtual cross-section through each fermentation. Differences of over 12°C were observed between the centre of the cap and the liquid of fermentations at both scales, as were differences of up to 8°C between the centre and side of the cap. Cap management techniques typical for industry did not eliminate temperature gradients. A 1600-L tank fitted with in-place temperature sensors allowed nearly instantaneous determination of temperature cross-sections and revealed that a thorough pumpover was needed to reduce temperature differences to <5°C. Conclusions: Temperature gradients can be large in red wine fermentations, regardless of scale, varying with the must and fermentation management. Significance of the Study: Large temperature differences and high temperatures through and during fermentation have implications for yeast performance, and colour and flavour compound extraction, modification and stability.
Industrial scale, Plunging, Pumpover, Punchdown, Red wine, Small scale, Temperature gradient
249-255
Schmid, F.
d418e84a-23c5-4f39-a5a1-303e56aea2f8
Schadt, J.
3a9f498f-c675-4a71-b498-85606c30628a
Jiranek, V.
8e5a8dfd-f5b2-43e3-928b-11dff324abc7
Block, D. E.
811b28a7-13ec-4867-8407-6c7e3c552aa5
October 2009
Schmid, F.
d418e84a-23c5-4f39-a5a1-303e56aea2f8
Schadt, J.
3a9f498f-c675-4a71-b498-85606c30628a
Jiranek, V.
8e5a8dfd-f5b2-43e3-928b-11dff324abc7
Block, D. E.
811b28a7-13ec-4867-8407-6c7e3c552aa5
Schmid, F., Schadt, J., Jiranek, V. and Block, D. E.
(2009)
Formation of temperature gradients in large- and small-scale red wine fermentations during cap management.
Australian Journal of Grape and Wine Research, 15 (3), .
(doi:10.1111/j.1755-0238.2009.00053.x).
Abstract
Background and Aims: Red wine fermentations are not a homogenous mixture in terms of both density (grape solids vs liquid) and temperature distribution. Winemakers practise cap management techniques to facilitate the extraction of flavour and colour, but also to achieve a more uniform temperature throughout the fermentation tank. The aim of this work was to provide, for the first time, a detailed definition of the temperature gradients in a two-dimensional cross-section of several fermentations and to determine the impact of typical cap management techniques on these. Methods and Results: Commercial (3450 L) and research (50 L) red wine fermentations were monitored with a handheld thermocouple at defined positions in the tank to yield temperature profiles for a virtual cross-section through each fermentation. Differences of over 12°C were observed between the centre of the cap and the liquid of fermentations at both scales, as were differences of up to 8°C between the centre and side of the cap. Cap management techniques typical for industry did not eliminate temperature gradients. A 1600-L tank fitted with in-place temperature sensors allowed nearly instantaneous determination of temperature cross-sections and revealed that a thorough pumpover was needed to reduce temperature differences to <5°C. Conclusions: Temperature gradients can be large in red wine fermentations, regardless of scale, varying with the must and fermentation management. Significance of the Study: Large temperature differences and high temperatures through and during fermentation have implications for yeast performance, and colour and flavour compound extraction, modification and stability.
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Published date: October 2009
Keywords:
Industrial scale, Plunging, Pumpover, Punchdown, Red wine, Small scale, Temperature gradient
Identifiers
Local EPrints ID: 482570
URI: http://eprints.soton.ac.uk/id/eprint/482570
ISSN: 1322-7130
PURE UUID: f42ad05f-95a6-4634-ad3e-727c817250fc
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Date deposited: 10 Oct 2023 16:58
Last modified: 18 Mar 2024 04:12
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Author:
F. Schmid
Author:
J. Schadt
Author:
V. Jiranek
Author:
D. E. Block
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