Raquel Lopéz scite author profile

Raquel Lopéz

4Publications

41Citation Statements Received

71Citation Statements Given

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Affiliations

University of Lisbon, University of Extremadura

Publications

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Treatment of Cork Process Wastewater by a Successive Chemical−Physical Method

Heredia

Domínguez

Lopéz

2004

J. Agric. Food Chem.

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In cork processing, the operation of boiling the raw cork generates large volumes of wastewater which are more often than not released directly into the environment untreated. Even when the wastewater is treated, this is usually by retention in evaporation ponds. This procedure, however, causes bad odors and may pollute surface water and groundwater. The present study evaluates a physicochemical method involving Fenton oxidation and coagulation/flocculation for the removal of chemical oxygen demand (COD), total polyphenols (TP), and aromatic compounds (A) from cork manufacturing process wastewater. The experimental variables studied were the dosages of iron salts (from 0.001 to 0.2 mol/L) and hydrogen peroxide (between 0.06 and 1 mol/L). The integrated Fenton-coagulation/flocculation process reduced the COD of the effluent by from 22% to 85%. The removal of total polyphenols ranged from 4% to 98%, and of aromatic compounds from 2% to 97%. A further two experiments were performed modifying the manner in which the reagents were added, splitting the reagent dose (of hydrogen peroxide and ferrous salt) into two and three fractions. Finally, an economic study was made of the chemical costs deriving from the application of this purification system. The cost of a treatment with an [H2O2](o)/COD(o) ratio of 1.8 g/g (splitting the reagent dose into three fractions) that yields a COD removal of 73% was estimated to be 11.5 euros/m(3) of wastewater.

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Study of butyl-amine nanocrystal cellulose in the flotation of complex sulphide ores

Lopéz

Jordão

Hartmann

et al. 2019

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Froth flotation is a widely used process for the beneficiation of complex sulphide ores. Thiol collectors (mostly xanthates) are usually effective collectors for sulphide minerals but may have a low selectivity between different sulphide minerals when associated in complex sulphide ores.Additionally, a concern is their suggested harmfulness on human health and impact on the environment. In this study, a green sustainable reagent, butyl-amine cellulose (BAC), was synthesized from hardwood kraft pulp, a renewable abundant resource, for the selective separation of chalcopyrite and sphalerite. The performance evaluation was made using samples of two ores containing chalcopyrite and sphalerite, one was from Panasqueira mine (Portugal) and the other with a different mineral association (from the massive sulphide deposits of the Iberian Pyrite Belt).The study demonstrated that when chalcopyrite is associated with sphalerite, BAC is selective for chalcopyrite, i.e., it is a collector for this mineral and not for sphalerite. The recovery of chalcopyrite in the floated product was a function of interaction between BAC concentration and pulp pH. The study showed that the novel cellulose-based collector had a better performance than the reagents used in the industrial flotation of Panasqueira ore.

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Advanced oxidation of cork‐processing wastewater using Fenton's reagent: kinetics and stoichiometry

Heredia

Domínguez

Lopéz

2004

J of Chemical Tech & Biotech

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This work evaluates Fenton oxidation for the removal of organic matter (COD) from corkprocessing wastewater. The experimental variables studied were the dosages of iron salts and hydrogen peroxide. The COD removal ranged from 17% to 79%, depending on the reagent dose, and the stoichiometric reaction coefficient varied from 0.08 to 0.43 g COD (g H 2 O 2 ) −1 (which implies an efficiency in the use of hydrogen peroxide varying from 17% to 92%). In a study of the process kinetics, based on the initial rates method, the COD elimination rate was maximum when the molar ratio [

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Hidatidose Hepática Calcificada

Carlos-Alves¹,

Santos²,

Lopéz³

et al. 2017

Gal. Clin.

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Raquel Lopéz

Treatment of Cork Process Wastewater by a Successive Chemical−Physical Method

Study of butyl-amine nanocrystal cellulose in the flotation of complex sulphide ores

Advanced oxidation of cork‐processing wastewater using Fenton's reagent: kinetics and stoichiometry

Hidatidose Hepática Calcificada

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