terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Quality assessment of partially dealcoholized and dealcoholized red, rosé, and white wines: physicochemical, color, volatile, and sensory insights

Quality assessment of partially dealcoholized and dealcoholized red, rosé, and white wines: physicochemical, color, volatile, and sensory insights

Abstract

The global non-alcoholic wine market is projected to grow from USD 2.7 billion in 2024 to USD 6.97 billion by 2034, driven by health awareness, lifestyle shifts, and religious factors [1-3]. Consequently, the removal of alcohol can significantly alter the key quality parameters of wine. This study examines the effects of dealcoholization on key wine quality characteristics, including physicochemical parameters, color profile, volatile component composition, and sensory attributes. The study was conducted on three wine types: Merlot red wine (vinified in a 220 L oak barrel for 7 months, 13.15% v/v), Pinot Noir rosé wine (vinified in stainless steel, 12.92% v/v), and Riesling white wine (vinified in stainless steel, 13.13% v/v), all from the 2022 vintage. For each samples two replicated were done. Vacuum evaporation was used to produce both partially dealcoholized (6% v/v) and dealcoholized (<0.5% v/v) wine. Immediately after dealcoholization, the wines were bottled using a heat exchanger in brown glass bottles (without headspace to limit/minimize oxidation) under screw cap closures and stored in a cellar at a temperature of 18–20 °C. The basic wine parameters were assessed via FTIR [4], color profiles were analyzed using a PhotoLab 7600 UV-VIS instrument, the volatile profile was evaluated using GC-MS [5], and wine tasting was conducted by experienced/trained panellists. The results indicated that density, total extract, acidity, and glycerin generally increased with dealcoholization, possibly due to the concentration effect caused by the removal of ethanol. While reducing sugars, pH, and organic acid profiles varied depending on the wine type. Dealcoholization led to a higher color intensity and chroma values, with noticeable differences in lightness (L), redness (a*), and yellowness (b*) parameters. Color differences (ΔE) was more pronounced in rosé and red wines compared to white wines. The total volatile compounds significantly (p < 0.05) decreased by 89.36%, 91.15%, and 93.74% in dealcoholized white, rosé, and red wines, respectively, compared to the original wine. Furthermore, sensory profile results revealed that the overall acceptability score for partially dealcoholized and dealcoholized white and red wines were similar to that of the respective original wines, while partially dealcoholized and dealcoholized rosé wines were scored lower compared to the original wine. Specifically, the intensity scores for fresh floral, fresh fruity, body/fullness, sweetness, and hotness decreased for all types of dealcoholized wines, while the intensity scores for cooked vegetable, color intensity, and acidity were higher for partially dealcoholized and dealcoholized wines compared to the respective original wines. The experimental findings expand the knowledge of the critical changes induced by dealcoholization and provide insights into maintaining the sensory and chemical integrity of wines during the process.

References

[1] Fact.MR. (2024). https://www.factmr.com/report/4532/non-alcoholic-wine-market

[2] Kumar, Y., Cassano, A., Conidi, C., Gottardi, D., Ricci, A., Parpinello, G. P., & Versari, A. (2025). Journal of Food Engineering, 391, 112456.

[3] Kumar, Y., Ricci, A., Parpinello, G. P., & Versari, A. (2024). Food and Bioprocess Technology. 17, 3525–3545

[4] Schmitt, M., Patz, C.-D., Rheinberger, A., Giehl, A., Freund, M., Christmann, M., & Wolf, C. (2023). BIO Web of Conferences, 68, 02006.

[5] Schmitt, M., Broschart, S., Patz, C.-D., Rauhut, D., Friedel, M., & Häge, D. (2019). BIO Web of Conferences, 12, 02021.

Publication date: June 5, 2025

Type: Oral communication

Authors

Yogesh Kumar1,*, Lorenzo Italiano2, Matthias Schmitt2, Arianna Ricci1, Giuseppina Paola Parpinello1, Andrea Versari1

1 Department of Agricultural and Food Sciences, University of Bologna, Piazza Goidanich 60, 47521, Cesena, FC, Italy
2 Institut of Oenologie, Hochschule Geisenheim University, Von-Lade-Str. 1, 65366 Geisenheim, Germany

Contact the author*

Keywords

color profile, dealcoholization, sensory profile, volatile compound, vacuum evaporation

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Characterization of intact glycoside aroma precursors of recovered minority Spanish red grape varieties by High-Resolution Mass Spectrometry

In Spain, the wide diversity of red grapevine varieties represents an advantage when choosing the most suitable one for cultivation based on different climatic conditions, without implying a loss of their enological potential.

Wine tartaric stability based on hydrogel application

Tartrates are salts of tartaric acid that occur naturally in wine and lead to sediments that cause consumers’ rejection. There are currently different treatments to prevent its occurrence, with cold stabilization being the most traditional and well-known method.

Influence of social interaction levels on panel effectiveness in developing wine sensory profiles using consensus method

The development of sensory profiles is crucial for quality control and innovation in the wine industry. If quantitative descriptive analysis is the most commonly used method for establishing sensory profiles due to its robustness, it presents significant limitations.

Unveiling the chemical headspace of sparkling wine glasses by laser spectroscopy

Right after serving a sparkling wine into a glass, thousands of rising and bursting bubbles convey gas-phase CO2 and volatile organic compounds (VOCs) in the headspace above the champagne surface, thus progressively modifying the gaseous chemical space perceived by the consumer [1].

Sensory and consumer perceptions, and consumption barriers of low and no-alcohol wines in Trentino/Alto Adige

The growing demand for non-alcoholic beverages, driven by health-conscious consumers and shifting social norms, has positioned dealcoholized wines as a promising alternative in the global beverage industry (Akhtar et al., 2025, in press; Kakroo, 2024).