terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Impact of GoLo technology on the aroma profile of red and white wines after total and partial dealcoholisation

Impact of GoLo technology on the aroma profile of red and white wines after total and partial dealcoholisation

Abstract

Wine dealcoholisation has been practised since the early 1900s and has gained importance due to climate change and shifting consumer preferences for lower-alcohol beverages. Rising temperatures are accelerating grape ripening, increasing sugar content and, consequently, raising the alcohol strength of wines. In addition, health concerns related to alcohol consumption have also contributed to the growing demand for dealcoholised wines [1].

Dealcoholisation techniques can be applied at different stages of winemaking. Post-fermentation techniques physically remove alcohol and include membrane-based methods such as nanofiltration, reverse osmosis, and osmotic distillation, as well as non-filtration techniques such as vacuum distillation, spinning cone columns, and multi-stage membrane systems [2]. GoLo, a low-temperature vacuum distillation technology, operates similarly to the spinning cone column but integrates multiple separation steps into a continuous system. It efficiently removes nearly 100% of the volatile aroma compounds—allowing their reintegration—and reduces the alcohol strength to as low as 0.05% (v/v) [3].

This study investigates the effects of total and partial dealcoholisation using GoLo technology on the aromatic composition of both red and white wines. The wines underwent two levels of dealcoholisation: partial dealcoholisation, reducing the alcohol strength to approximately 7.5% v/v, and total dealcoholisation, lowering the alcohol strength to 0.5% v/v. The volatile compound profile of both treated and untreated wines was analysed using gas chromatography-mass spectrometry (GC-MS) combined with multiple headspace solid-phase microextraction (MHS-SPME) [4]. The analysis focused on key aroma compounds, including esters, alcohols, and acids, which play a crucial role in the wine’s aromatic profile.

The results showed that GoLo technology was effective in reducing alcohol strength; however, total dealcoholisation led to a significant loss of aroma compounds. Partial dealcoholisation consistently preserved more of the original aromatic complexity in both wines.

This study emphasises the impact of ethanol removal on wine aroma and underscores the benefits of partial dealcoholisation in preserving sensory characteristics.

References

[1] Brányik, T., Silva, D. P., Baszczyňski, M., Lehnert, R., e Silva, J. B. A. (2012). J. Food Eng., 108(4), 493-506.

[2] Mangindaan, D., Khoiruddin, K., Wenten, I.G. (218). Trends Food Sci. Technol., 71, 36–45.

[3] Pienaar, S.W. (2016) U.S. Patent US20150132459A1.

[4] Milheiro, J., Filipe-Ribeiro, L., Cosme, F., Nunes, F. M. (2023). Food Chem., 421, 136154.

Publication date: June 4, 2025

Type: Poster

Authors

Juliana Milheiro1, Luís Moreira1, Sandrine S. Ferreira1, Fernanda Cosme1 and Fernando M. Nunes1,*

1 Food and Wine Chemistry Lab, Chemistry Research Centre – Vila Real, University of Trás-os-Montes and Alto Douro, Portugal.

Contact the author*

Keywords

dealcoholisation, GoLo technology, aroma profile, wine

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

The capacity of spectrofluorometric fingerprints to discern changes of wine composition: applications in classifying wine additives and tracking red wine maturation and ageing

Fluorescence spectroscopy combined with chemometrics has shown advantages in wine analysis due to being rapid, sensitive, and selective to fluorescent molecules. Especially due to the abundant phenolic compounds [1], the molecular fingerprints afforded by fluorescence spectroscopy can potentially be used to discern and track the change of wine composition, with two innovative investigations having been implemented.

Chardonnay white wine bottled with different oenological tannins: effect on colour traits, volatile composition and sensory attributes during shelf-life

The use of oenological tannins during winemaking has been mostly studied for improving colour traits and stability on red wines. Their effectiveness mainly depends on the tannin composition, grape variety and winemaking approach [1].

Comparison of the principal production methods for alcohol-free wine based on analytical parameters

Production, demand, and brand awareness of dealcoholized wine (<0.5% v/v) is steadily increasing worldwide. However, there have been few studies to date investigating and comparing the different physical processes for dealcoholizing wine.

Biosynthetic evolution of galloilated polyphenols in Tannat grapes during ripening, potential applications of grape thinning

Galloylated flavan-3-ols are a class of polyphenolic compounds present in various plants, including grape seeds. These compounds are formed through the condensation of flavan-3-ols, such as catechins, although the precise mechanism by which gallic acid is incorporated into the molecule remains unclear.

Colloidal color stabilization in wine: A comparative study of Saccharomyces and non-Saccharomyces mannoproteins

Structure-function relationships between the polysaccharide part of S. cerevisiae Mannoprotein Pools (MPs) and their potential to interact with anthocyanins and Protein-Tannins aggregates was previously assessed [1,2].