Experimental study of physical and rheological properties of grape juice using different temperatures and concentrations. Part II: Merlot

Castilhos, Maurício Bonatto Machado de; Betiol, Lilian Fachin Leonardo; Carvalho, Gisandro Reis; Telis‐Romero, Javier

doi:10.1016/j.foodres.2017.12.026

Cited by 20 publications

(14 citation statements)

References 26 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…All the values of flow behavior index (n) were less than 1 which proved the shear-thinning and non-Newtonian behavior of the red wine samples (Trávníček et al, 2016). Our results concerning the non-Newtonian pseudoplastic behavior of red wine samples agreed with the previous studies (De Castilhos et al, 2018). Higher K value indicated the higher apparent viscosity.…”

Section: Rheological Properties Of Red Wines From Xixia King Chateausupporting

confidence: 90%

Effect of sodium sulfite, tartaric acid, tannin, and glucose on rheological properties, release of aroma compounds, and color characteristics of red wine

Wang

et al. 2018

Food Sci Biotechnol

View full text Add to dashboard Cite

In this study, we evaluated the effect of addition of non-volatile compounds (sodium sulfite, tartaric acid, tannin, and glucose) on the rheological properties, release of aroma compounds, and color of the red wine. While determining the rheological properties of the supplemented samples, non-Newtonian fluidic and shear-thinning behavior of samples was noticed. The viscosity of these samples was found in negative correlation with the dose of addition of various non-volatile substances. The aroma profile of red wine after additions showed the change in the release of the nine key aroma compounds. Among them ethyl hexanoate, phenylethyl alcohol, octanoic acid, diethyl succinate, and ethyl octanoate were profoundly increased. Further, the color of red wines was improved in the presence of tartaric acid and tannin. Overall, supplementation of various substances during storage period of three different wines could enormously affect the sensory characteristics in a dose dependent manner.

show abstract

Section: Rheological Properties Of Red Wines From Xixia King Chateausupporting

confidence: 90%

Effect of sodium sulfite, tartaric acid, tannin, and glucose on rheological properties, release of aroma compounds, and color characteristics of red wine

Wang

et al. 2018

Food Sci Biotechnol

View full text Add to dashboard Cite

show abstract

“…Regarding the temperature, Figure 2(d)-(f) also showed that specific heat slightly increases with increasing temperature. This same trend was noticed for Cabernet Sauvignon grape juice (Castilhos et al, 2017), Merlot grape juice (Castilhos et al, 2018), juices and syrups from a noncentrifugal sugar cane production process (Alarcón et al, 2020), meat extract (Polachini, Betiol, Bastos, Telis, & Telis-Romero, 2017), pequi pulp (Souza, Queiroz, Figueirêdo, Santos, & Lemos, 2016) and papaya puree (Tansakul, Kantrong, Saengrayup, & Sura, 2012). So, it could be assumed that diluted solutions demand more energy to increase the temperature than concentrated solutions with the same mass.…”

Section: Specific Heat (C P )supporting

confidence: 62%

“…The experimental data of sucrose, glucose and fructose solutions were very similar (maximum deviation of 3%) to that observed by Darros-Barbosa et al 2003 On the other hand, the same Figure (2a-c) showed that density was inversely proportional to the temperature: it increased as the temperature decreased. The same behavior is observed for different products, such as grape juice Merlot (Castilhos et al, 2018), meat extract (Polachini et al, 2016), Malay Rose apple pulp (Fontan et al, 2018), juices and syrups from a noncentrifugal sugar cane production process (Alarcón, Orjuela, Narvaéz, & Camacho, 2020) and…”

Section: Mathematical Modelingmentioning

confidence: 54%

“…Their accurate determination provides reliable data for understanding and designing heat transfer processes. Techniques as differential scanning calorimetry (DSC) have been proven to be very accurate in determining specific heat of food products (Castilhos, Betiol, Carvalho, & Telis-Romero, 2018;Leila et al, 2019;Parniakova et al, 2018). Systems properly designed with electrical resistance and metallic cell also demonstrated to be useful and accurate for determining thermal conductivity (Costa, Silva, & Vieira, 2019), while thermal diffusivity can be easily obtained by correlating the aforementioned properties.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Thermophysical properties of carbohydrate solutions: Correlation between thermal and transport properties

Martins

Guimarães

Polachini

et al. 2020

J Food Process Engineering

View full text Add to dashboard Cite

Sugar solutions such as sucrose, glucose and fructose are often used in osmotic dehydration processes. Thus, the experimental determination of their thermophysical properties is a must for designing purposes. Density, specific heat and thermal conductivity were determined in a wide range of solute concentration (10–60 °Brix) and temperature (273.15–358.15 K). Empirical equations were considered to fit the experimental data and to evaluate the data behavior. An assessment based on the Prandtl number was considered to correlate thermal and rheological data. Higher density and lower specific heat and thermal conductivity values were observed when temperature decreased and solute concentration increased. Prandtl number behaved similarly as density, indicating that momentum transfer is favored in comparison with heat transfer in more concentrated solutions at lower temperatures. A versatile polynomial model concerning the significant variables could predict the experimental values for all solutions with good accuracy (R2 > .9863 and MRE < 1.20%). Reported data and equations showed to be essential for engineering aspects and transport phenomena analysis. Practical Applications Sucrose, glucose and fructose solutions are commonly used in osmotic dehydration processes to promote solute incorporation, increasing shelf‐life and quality of food products. The availability of thermophysical properties in a wide range of solute concentration and temperature covers the most of conventional and nonconventional conditions for designing osmotic dehydration and many other food processes. Among the unit operations, it could be found pumping, mixing/stirring, pasteurization, sterilization, evaporation and so on. These data are useful to understand how properties change when the conditions are altered during the processes. They also provide important information about momentum and heat transfer through the fluid. By analyzing dimensionless parameters, as Prandtl number, one phenomenon or other can be favored under specific conditions. The presence of accurate mathematical models results in greater agility and reliability in the execution of processes, especially for those operating in wide ranges of temperature and solute concentration.

show abstract

“…This behavior is rationed with the food processing conditions, whether thermal and non-thermal processes, affect the natural structure and the composition of food powders; the structure of foods can have a profound influence on its nutritional value, rheology and functional attributes [24]. The rheological behavior of a fluid is influenced by several factors, mainly the intermolecular forces and the water-solute interaction which limit the movement of the particles at a molecular level [25]. Changes in the temperature and concentration can lead to significant changes in the intermolecular forces [26].…”

Section: Rheological Analysismentioning

confidence: 99%

Effect of lyophilization on the rheological properties of squash (Cucurbita moschata) and sesame (Sesamun indicum) cream

Quintana¹,

Castillo²,

García‐Zapateiro³

2018

ces

View full text Add to dashboard Cite

Several factors affecting rheological properties such as temperature, concentration, Ph and enzyme addition during processing; the knowledge on changes of these properties for research and engineering applications is essential in the design of systems in the development of new products. The aim of this work was formulated and standardize reconstituted creams of squash (Cucurbita moschata) and sesame (Sesamun indicum) using lyophilization. The influence of physicochemical and rheological properties on the pasteurization process of pulp, the percentage of sesame flour and the amount water on standardization was studied. Creams present a Non-Newtonian flow behavior type shear thinning. The rheological parameters were fitted to Power law model. So, on the subsequent rehydration, the power presented the same behavior although a decrease on consistency index () and index (n) due to lyophilization process. The preservation of the bromatological and rheological properties of the final product can be evidenced after being subjected to the effect of the lyophilization process

show abstract

Experimental study of physical and rheological properties of grape juice using different temperatures and concentrations. Part II: Merlot

Cited by 20 publications

References 26 publications

Effect of sodium sulfite, tartaric acid, tannin, and glucose on rheological properties, release of aroma compounds, and color characteristics of red wine

Effect of sodium sulfite, tartaric acid, tannin, and glucose on rheological properties, release of aroma compounds, and color characteristics of red wine

Thermophysical properties of carbohydrate solutions: Correlation between thermal and transport properties

Effect of lyophilization on the rheological properties of squash (Cucurbita moschata) and sesame (Sesamun indicum) cream

Contact Info

Product

Resources

About