2021
DOI: 10.1111/jfpe.13784
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Sorption isotherms and thermodynamic properties of wheat malt under storage conditions

Abstract: The growing use of wheat malt in food applications has boosted studies regarding suitable conditions for processing and storage. Because water sorption during storage may affect the malt functionality, sorption isotherms of wheat malt were determined aiming at covering a wide range of temperatures (10–40°C) and relative humidity (5.80–98.18%). Different theoretical models were fitted to the experimental data. Thermodynamic properties as heat of sorption, enthalpy, entropy, and Gibbs free energy were evaluated.… Show more

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Cited by 14 publications
(16 citation statements)
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“…Thus, the value of (∆Hdiff) at low moisture contents indicates the presence of more active sorption sites, that is, a greater interaction of polymer-water bonds. This behavior has also been described in other materials, such as wheat malt [47], papaya seeds [13] and a bionanocomposite produced from pectin and pracaxi oil [48]. The differential enthalpy curves tended towards higher values as the moisture content increased until they reached a maximum value and stabilized, indicating that the heat of evaporation at this time was the same as the latent heat of vaporization of pure water [49].…”
Section: Differential Enthalpy (∆Hdiff)supporting
confidence: 67%
“…Thus, the value of (∆Hdiff) at low moisture contents indicates the presence of more active sorption sites, that is, a greater interaction of polymer-water bonds. This behavior has also been described in other materials, such as wheat malt [47], papaya seeds [13] and a bionanocomposite produced from pectin and pracaxi oil [48]. The differential enthalpy curves tended towards higher values as the moisture content increased until they reached a maximum value and stabilized, indicating that the heat of evaporation at this time was the same as the latent heat of vaporization of pure water [49].…”
Section: Differential Enthalpy (∆Hdiff)supporting
confidence: 67%
“…If the Gibbs free energy (ΔG) described as the measurement of the sorbent affinity of water during the sorption process is positive, the energy supply from the environment for the occurrence of the reactions is necessary (McMinn et al, 2005). The phenomenon occurs spontaneously if the Gibbs free energy is negative (Kaleemullah & Kailappan, 2007; Silva et al, 2021). ΔG change with EMC is shown for 35°C during adsorption and desorption (Figure 8).…”
Section: Resultsmentioning
confidence: 99%
“…These parameters can be found by fitting Equation ( 7) to the data obtained from Equations ( 4) and ( 6). The validity of Equation ( 7) can be verified by comparing the value of T β to the harmonic mean temperature calculated as T hm ¼ n= In that case, it could be inferred that the adsorption process is driven by ΔH s when T β > T hm and driven by ΔS s when T β < T hm (Silva et al, 2021). The application and validity of the enthalpy-entropy compensation theory was tested by fitting Equation ( 7) to the calculated values of ΔH s and ΔS s from the experimental adsorption isotherms.…”
Section: Net Isosteric Heat Of Adsorption and Entropy Of Adsorptionmentioning
confidence: 91%
“…The ΔSs, henceforth called sorption entropy, can be related to the number of available adsorption sites and calculated from ΔHs through the following expression (Silva et al, 2021): ΔSs=ΔHs()Tgoodbreak+TR+Rlnaw. …”
Section: Methodsmentioning
confidence: 99%
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