Rheological Behaviour, Freezing Curve, and Density of Coffee Solutions at Temperatures Close to Freezing

Moreno, F.L.; Raventós, M.; Hernández, E.; Santamaría, N.; Acosta, Joaquín Campos; Pirachican, O.; Torres, L.; Ruiz, Yolanda García

doi:10.1080/10942912.2013.833221

Cited by 24 publications

(14 citation statements)

References 34 publications

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“…The total soluble solids content of the solution was monitored every 30 min using an Atago refractometer (PAL‐BX/RI, Atago, Japan). °Brix measured in the samples were converted to a percentage of total solids using the equation: %Solids = 0.87% × °Brix, as reported by (Moreno, Quintanilla‐Carvajal, et al, ; Moreno, Raventós, et al, ). Each step was completed when the concentration index (CI) reached a range of 1.4–1.5.…”

Section: Methodsmentioning

confidence: 99%

“…In the food industry, the nutritional and sensory properties of the product may be affected by the processing of raw materials at high temperatures, as is the case for concentration by evaporation. Thus, freeze concentration (FC) has been implemented as an alternative in the food industry (Moreno, Quintanilla‐Carvajal, et al, ; Moreno, Raventós, et al, ; Sánchez, Ruiz, Auleda, Hernandez, & Raventos, ).…”

Section: Introductionmentioning

confidence: 99%

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Effect of falling‐film freeze concentration on bioactive compounds in aqueous coffee extract

Correa

Ruiz

Moreno

2017

J Food Process Engineering

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Falling‐film freeze concentration (FFFC) is a technology used to concentrate liquids by freezing. This study demonstrated the effect of FFFC on bioactive compounds in coffee extract and their antioxidant activity. Coffee extract containing 5% solids was freeze‐concentrated in 2 successive steps. The main bioactive compounds, chlorogenic acids and caffeine were detected by RP‐HPLC. The antioxidant activity and phenolic content were assessed by ABTS, DPPH, and Folin–Ciocalteu assays. The solution was concentrated 2.09 times after 2 FFFC steps. A concentration index of 2.1 was obtained for bioactive compounds for the concentrated fraction. The antioxidant activity was preserved and a correlation between antioxidant activity and the content of bioactive compounds was confirmed. Coffee bioactive compounds were distributed in proportion to the total solids content of the ice and liquid. Overall, the results showed that FFFC is an effective technique to concentrate liquids that preserves the functional properties of the coffee extract. Practical applications The falling film freeze concentration is a new freeze concentration technique which is in development to be used in future industrial applications of food fluids concentration. This study demonstrates the preservation of bioactive compounds and bioactivity of this technique applied to the concentration of coffee extract. The research has applications in the coffee industry in the production of concentrated coffee extract and freeze‐dried soluble coffee.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of falling‐film freeze concentration on bioactive compounds in aqueous coffee extract

Correa

Ruiz

Moreno

2017

J Food Process Engineering

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“…There are many potential applications for oil-in-water emulsions that can be frozen and then thawed prior to use, e.g. refrigerated and frozen food or pharmaceutical products (Moreno et al, 2015;Thanasukarn et al, 2006a). The freezing often adversely affects on the stability emulsion through various physical-chemical mechanisms, including water crystallization, freeze concentration, biopolymer conformational changes and interfacial phase transitions that these make the emulsions become unstable after thawing, which limits their use in food products (Dons et al, 2011;Ghosh and Coupland, 2008;Mun et al, 2008a).…”

Section: Introductionmentioning

confidence: 99%

Freeze–thaw stability of emulsions with soy protein isolate through interfacial engineering

Noshad

Mohebbi

Shahidi

et al. 2015

International Journal of Refrigeration

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“…If the solution contains dissolved solids other than pure sucrose, then the °Bx only approximates the dissolved solid content. For aqueous solutions of sugars, there is a close relationship between the value of refractive index and its degree Brix [5][6][7]. The °Bx is usually used in the sugar, carbonated beverage, fruit juice, maple syrup and honey industries.…”

Section: Introductionmentioning

confidence: 99%

Refractometric study on binary, ternary, and quaternary solutions made by water, methanol, ethanol, glycerol, D-glucose monohydrate (DGMH), sucrose, and sodium chloride at T = 293.15 K and atmospheric pressure

Koohyar

Nasiri²,

Kiani

2019

J. Mex. Chem. Soc.

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The glycerol, D-glucose monohydrate (DGMH), sucrose, and sodium chloride are used in food industries and the measurement of properties for these components and their aqueous solutions can be important. In this research work, the refractive indices for binary solutions of (methanol + glycerol), (ethanol + glycerol), ternary solutions of (water + glycerol + DGMH), (water + glycerol + sucrose), (water + sucrose + DGMH), (water + sucrose + ethanol), (water + ethanol + DGMH), (water + NaCl + DGMH), (water + methanol + NaCl), (water + ethanol + NaCl), (water + NaCl + glycerol), (water + sucrose + NaCl), and quaternary solutions of (water + ethanol + sucrose + DGMH), (water + ethanol + sucrose + glycerol), (water + NaCl + sucrose + glycerol) were measured in wide range of mole fractions at T = 293.15 K and atmospheric pressure. For binary solutions of this study, the changes of refractive index on mixing, ∆nD, were calculated in each mole fraction at T = 293.15 K. Also, the refractive index of binary solutions was fitted by a semi-empirical equation. The constant of this equation, Kr, was represented by Koohyar et al. in 2011. This constant can be used to investigate power of interactions between solute and solvent molecules. For ternary and quaternary solutions of this study, a semi-empirical equation was used to determine refractive indices at given temperature. The comparison between calculated and experimental refractive indices shows that there is a good agreement between them especially in lower molal concentrations.

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Rheological Behaviour, Freezing Curve, and Density of Coffee Solutions at Temperatures Close to Freezing

Cited by 24 publications

References 34 publications

Effect of falling‐film freeze concentration on bioactive compounds in aqueous coffee extract

Effect of falling‐film freeze concentration on bioactive compounds in aqueous coffee extract

Freeze–thaw stability of emulsions with soy protein isolate through interfacial engineering

Refractometric study on binary, ternary, and quaternary solutions made by water, methanol, ethanol, glycerol, D-glucose monohydrate (DGMH), sucrose, and sodium chloride at T = 293.15 K and atmospheric pressure

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