Repository logo

Browsing by Author "Sarmento, M.R."

Now showing 1 - 2 of 2
  • Influence of intrinsic factors on conventional wine protein stability tests
    Publication . Sarmento, M.R.; Oliveira, J.C.; Slatner, M.; Boulton, R.B.
    The influence of intrinsic factors on the results of ethanol, tannin and heat tests, routinely used to assess wine protein stability, was studied. Experiments were performed on 23 Portuguese and Austrian wines. The factors considered were total protein content, pH, ethanol content and the amount of several relevant cations (calcium, iron, copper, sodium and potassium). The protein pro®les were analysed by HPLC fractionation. The heat test was a good indicator of total protein content while the ethanol and the tannin tests showed signi®cant interference by the other factors. A factorial design at two levels in selected samples was also performed to assess the influence of pH, storage temperature, tannin concentration and ethanol concentration on the development of turbidity. Results indicated that ethanol content had no significant infuence, and that pH and storage temperature had a significant infuence, though only when tannin was added.
    2000Journal article Open access Show more
  • Kinetics of the adsorption of bovine serum albumin contained in a model wine solution by non-swelling ion-exchange resins
    Publication . Sarmento, M.R.; Oliveira, J.C.; M. Slatner, M.; Boulton, R.B.
    Adsorption of wine proteins is an essential step in the production of white and rosé wines. In order to develop environmentally friendly adsorption processes, non-swelling adsorbents are required. The performance of selected non-swelling ion-exchange resins (Macro-Prep™ 50S and Streamline® SP) was studied by describing the process kinetics of the adsorption of BSA in a model wine solution. The process was assumed to be diffusion controlled and a shrinking core model was applied. Experiments were performed in the 5–35°C temperature range and with different equilibrium partition coefficients. The results obtained with the shrinking core model were theoretically consistent and the apparent diffusivity values correlated very well with theoretically estimated effective diffusivities combined with a linear dependence of porosity with temperature. Separating the temperature effect on porosity, the apparent diffusivity followed an Arrhenius type dependency with temperature with 16.9 kJ/mole activation energy.
    1999Journal article Open access Show more