Experimental study of physical and rheological properties of grape juice using different temperatures and concentrations. Part I: Cabernet Sauvignon

The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide range of temperature (1–66°C) and concentrations (13.6–45.0Brix) at shear rates of 0.84–212.1 1/s. The Ostwald-De Waele was the best rheological...

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Published inFood research international Vol. 100; no. Pt 1; pp. 724 - 730
Main Authors de Castilhos, Maurício Bonatto Machado, Betiol, Lilian Fachin Leonardo, de Carvalho, Gisandro Reis, Telis-Romero, Javier
Format Journal Article
LanguageEnglish
Published Canada Elsevier Ltd 01.10.2017
Subjects
Activation energy
Cabernet Sauvignon
Food Storage
Grape juice
Physical properties
Rheology
Temperature
Vitis - chemistry
Wine - analysis
Grape juice
Cabernet Sauvignon
Rheology
Physical properties
Activation energy
Online AccessGet full text

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Abstract The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide range of temperature (1–66°C) and concentrations (13.6–45.0Brix) at shear rates of 0.84–212.1 1/s. The Ostwald-De Waele was the best rheological model fitted the data (R2=0.99957 and relative error=7.77%). The Cabernet Sauvignon juice concentrates presented a non-Newtonian pseudoplastic behavior (n<1). The consistency levels were significantly reduced with the increase of temperature and increased with the increase of the concentrations. The flow activation energy ranged from 28.87 (45.0Brix) to 38.05KJ/mol (37.0Brix) with a R2=0.9798 for both cases. Density and specific heat were influenced by both temperature and concentration; however, thermal conductivity was only influenced by concentration. The Cabernet Sauvignon juice concentrates will be useful as wine chaptalization agent in future studies. [Display omitted] •Rheological behavior of Cabernet Sauvignon juices was analyzed.•The grape concentrates followed Ostwald-De Waele law and pseudoplastic behavior.•Density and specific heat were influenced by temperature and concentration.•Thermal conductivity was influenced only by the different concentrations.
AbstractList The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide range of temperature (1-66°C) and concentrations (13.6-45.0Brix) at shear rates of 0.84-212.1 1/s. The Ostwald-De Waele was the best rheological model fitted the data (R =0.99957 and relative error=7.77%). The Cabernet Sauvignon juice concentrates presented a non-Newtonian pseudoplastic behavior (n<1). The consistency levels were significantly reduced with the increase of temperature and increased with the increase of the concentrations. The flow activation energy ranged from 28.87 (45.0Brix) to 38.05KJ/mol (37.0Brix) with a R =0.9798 for both cases. Density and specific heat were influenced by both temperature and concentration; however, thermal conductivity was only influenced by concentration. The Cabernet Sauvignon juice concentrates will be useful as wine chaptalization agent in future studies.
The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide range of temperature (1–66°C) and concentrations (13.6–45.0Brix) at shear rates of 0.84–212.1 1/s. The Ostwald-De Waele was the best rheological model fitted the data (R2=0.99957 and relative error=7.77%). The Cabernet Sauvignon juice concentrates presented a non-Newtonian pseudoplastic behavior (n<1). The consistency levels were significantly reduced with the increase of temperature and increased with the increase of the concentrations. The flow activation energy ranged from 28.87 (45.0Brix) to 38.05KJ/mol (37.0Brix) with a R2=0.9798 for both cases. Density and specific heat were influenced by both temperature and concentration; however, thermal conductivity was only influenced by concentration. The Cabernet Sauvignon juice concentrates will be useful as wine chaptalization agent in future studies. [Display omitted] •Rheological behavior of Cabernet Sauvignon juices was analyzed.•The grape concentrates followed Ostwald-De Waele law and pseudoplastic behavior.•Density and specific heat were influenced by temperature and concentration.•Thermal conductivity was influenced only by the different concentrations.
The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide range of temperature (1-66°C) and concentrations (13.6-45.0Brix) at shear rates of 0.84-212.1 1/s. The Ostwald-De Waele was the best rheological model fitted the data (R2=0.99957 and relative error=7.77%). The Cabernet Sauvignon juice concentrates presented a non-Newtonian pseudoplastic behavior (n&lt;1). The consistency levels were significantly reduced with the increase of temperature and increased with the increase of the concentrations. The flow activation energy ranged from 28.87 (45.0Brix) to 38.05KJ/mol (37.0Brix) with a R2=0.9798 for both cases. Density and specific heat were influenced by both temperature and concentration; however, thermal conductivity was only influenced by concentration. The Cabernet Sauvignon juice concentrates will be useful as wine chaptalization agent in future studies.
Author de Castilhos, Maurício Bonatto Machado
de Carvalho, Gisandro Reis
Betiol, Lilian Fachin Leonardo
Telis-Romero, Javier
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CitedBy_id crossref_primary_10_1016_j_foodres_2017_12_026
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Issue Pt 1
Keywords Grape juice
Cabernet Sauvignon
Rheology
Physical properties
Activation energy
Language English
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Snippet The effect of the temperature and concentration on rheological behavior of Cabernet Sauvignon juice concentrates was assessed using a rheometer over a wide...
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SubjectTerms Activation energy
Cabernet Sauvignon
Food Storage
Grape juice
Physical properties
Rheology
Temperature
Vitis - chemistry
Wine - analysis
Title Experimental study of physical and rheological properties of grape juice using different temperatures and concentrations. Part I: Cabernet Sauvignon
URI https://dx.doi.org/10.1016/j.foodres.2017.07.075
https://www.ncbi.nlm.nih.gov/pubmed/28873742
https://search.proquest.com/docview/1936259540
Volume 100
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