C
Carla M. Rodrigues
Researcher at Universidade Nova de Lisboa
Publications - 12
Citations - 540
Carla M. Rodrigues is an academic researcher from Universidade Nova de Lisboa. The author has contributed to research in topics: Glass transition & Membrane. The author has an hindex of 10, co-authored 12 publications receiving 489 citations. Previous affiliations of Carla M. Rodrigues include Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa.
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Monitoring the aroma production during wine–must fermentation with an electronic nose
TL;DR: This article discusses and evaluates the integration of a membrane separation process-organophilic pervaporation-for selectively enriching aroma compounds relative to ethanol, to improve sample discrimination.
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The effect of increasing CO2 concentrations on its capture, biomass production and wastewater bioremediation by microalgae and cyanobacteria
TL;DR: Through mathematical modelling, it was possible to conclude that optimal CO 2 concentration for these microorganisms was 5.35 ± 0.34% (v/v), which is close to 100% for photosynthetic microorganisms.
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Selective recovery of solutes from ionic liquids by pervaporation--a novel approach for purification and green processing.
TL;DR: Non-porous membranes with the selective layer consisting of hydrophilic or hydrophobic polymers have been applied for the quantitative and selective recovery of solutes with different physico-chemical properties from a room-temperature ionic liquid, ([bmim][PF6]).
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Two-dimensional fluorometry coupled with artificial neural networks: A novel method for on-line monitoring of complex biological processes
Gundula Wolf,Jonas S. Almeida,Carmen Pinheiro,Vasco Correia,Carla M. Rodrigues,Maria A.M. Reis,João G. Crespo +6 more
TL;DR: Artificial neural networks (ANNs) are introduced as a novel nonlinear and nonmechanistic technique for interpreting the highly complex fluorescence maps and it is shown that ANNs are able to infer process performance parameters in a pattern recognition approach, based on the entire fluorescence "fingerprint" of the biological system.
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Mechanism of charged pollutants removal in an ion exchange membrane bioreactor: Drinking water denitrification
TL;DR: By adjusting the ratio of co-ions between the biocompartment and the polluted water compartment, the magnitude and direction of each individual anion flux can be easily regulated, allowing for flexible process operation and control.