Your search keyword '"Gumersindo Feijoo"' showing total 5 results

1. Sequential reactors for the removal of endocrine disrupting chemicals by laccase immobilized onto fumed silica microparticles

Author

Y. Moldes-Diz, Gemma Eibes, Gumersindo Feijoo, Maria Teresa Moreira, Juan M. Lema, and M. Gamallo

Subjects

0106 biological sciences, Laccase, Bisphenol A, Chromatography, Membrane reactor, biology, Biocompatibility, Chemistry, Magnetic separation, 010501 environmental sciences, equipment and supplies, biology.organism_classification, 01 natural sciences, Biochemistry, Catalysis, chemistry.chemical_compound, Biocatalysis, 010608 biotechnology, 0105 earth and related environmental sciences, Biotechnology, Myceliophthora thermophila, Fumed silica

Abstract

The main objective of this study is the evaluation of the capability of laccase from Myceliophthora thermophila immobilized on fumed silica microparticles (fsMP) for the removal of endocrine disrupting chemicals (EDCs) in two enzymatic reactor configurations. This type of support can also be magnetized to allow the straightforward separation of the biocatalyst under a magnetic field. The support exhibited excellent biocompatibility with the enzyme, superior tolerance to pH and temperature as well as improved stability in comparison with the free enzyme, even in the presence of organic solvents and enzyme inhibitors. The technical feasibility of the removal of EDCs by immobilized laccase was assessed in two types of enzymatic reactors operated in sequential mode: a membrane reactor using fsMP-laccase and a reactor with magnetic separation using magnetized fsMP-laccase. The extent of transformation for the target compounds: bisphenol A (BPA) and 17β-estradiol (E2) was high and comparable to free laccase in both systems (up to 80%). The possibility of reusing the immobilized enzyme, especially for magnetized supports, offers an interesting approach in the development of enzyme based processes for the biotransformation of emerging pollutants.

Published

2017

2. Enzymatic reactors for the removal of recalcitrant compounds in wastewater

Author

Gemma Eibes, Maria Teresa Moreira, A. Arca-Ramos, Gumersindo Feijoo, and Juan M. Lema

Subjects

0106 biological sciences, Pollutant, Laccase, Membrane reactor, Chemistry, 010501 environmental sciences, Pulp and paper industry, 01 natural sciences, Biochemistry, Catalysis, Catalytic cycle, Wastewater, Biocatalysis, 010608 biotechnology, Oxidative enzyme, Organic chemistry, Effluent, 0105 earth and related environmental sciences, Biotechnology

Abstract

Enzymatic treatments based on oxidative enzymes, such as peroxidases, laccases and tyrosinases, have been proposed as an alternative to conventional methods to remove a broad range of contaminants present in wastewater. The aim of this study is to discuss existing technologies for the removal of pollutants based on the use of oxidative enzymes, including a discussion on the most important factors affecting the efficiency of the proposed systems. Factors involved in the catalytic cycle of the enzyme (biocatalyst, substrates and mediators), the addition of certain components to the reaction medium (additives, surfactants or solvents) as well as operational parameters (temperature, pH or agitation) will be discussed. Finally, two types of reactors: one-stage and two-stage enzymatic membrane reactors, especially designed for the treatment of micropollutants present in secondary effluents, will be described in detail.

Published

2017

3. Application of response surface methodology to study the removal of estrogens in a laccase-mediated continuous membrane reactor

Author

Gumersindo Feijoo, Juan M. Lema, M. Teresa Moreira, L. Lloret, and Gemma Eibes

Subjects

Laccase, Chromatography, Hydraulic retention time, Membrane reactor, Chemistry, chemistry.chemical_element, Estrone, Factorial experiment, Membrane bioreactor, Biochemistry, Oxygen, Catalysis, chemistry.chemical_compound, Response surface methodology, Biotechnology

Abstract

A three-level Box–Behnken factorial design combined with response surface methodology (RSM) was applied as a tool to study the laccase-catalyzed removal of three estrogenic compounds: estrone (E1), estradiol (E2), and ethinylestradiol (EE2), in a continuous enzymatic membrane reactor (EMR). Three main factors affecting the treatment efficiency were considered: enzyme activity, hydraulic residence time (HRT) and oxygenation rate. As expected, laccase activity and HRT showed large effects and, interestingly, the relevance of oxygen in improving the oxidation kinetics through raising the dissolved oxygen above saturation levels was demonstrated. When considering elimination rates as the response, optimal conditions were: 1,000 U/L of laccase, 1 h HRT and 60 mgO2/(L·h) of oxygenation rate, predicting 2.82–3.24 mg eliminated/(L·h), (71–81% of oxidation). These optimum conditions were successfully validated, and 75% of estrogenicity reduction was achieved. On the other hand, only 100 U/L were found as o...

Published

2013

4. Economic comparison of enzymatic reactors and advanced oxidation processes applied to the degradation of phenol as a model compound

Author

Gumersindo Feijoo, Juan M. Lema, Teresa Moreira, and Carmen L Ó Pez

Subjects

Chromatography, Immobilized enzyme, Membrane reactor, Chemistry, Continuous reactor, Pulp and paper industry, Biochemistry, Catalysis, chemistry.chemical_compound, Manganese peroxidase, Scientific method, Phenol, Degradation (geology), Sewage treatment, Biotechnology

Abstract

Some micropollutants present in wastewaters are barely removed in sewage treatment plants. In many cases a post-treatment process based on separation and/or oxidation has to be applied. The aim of this study was the technical and economic comparison of enzymatic technologies with other advanced oxidation processes (AOPs) for the degradation of phenol. Batch and continuous enzymatic reactors, using free and immobilized manganese peroxidase (MnP, EC 1.11.1.13), were considered. Continuous degradation of phenol in an enzymatic membrane reactor was shown to be the fastest process and degradation in a continuous reactor with immobilized enzyme involved the lowest consumption of enzyme. However, the immobilization process increased the enzyme cost 100-fold. A continuous enzymatic membrane reactor gave high degradation effi ciency and may be a viable technology for phenol removal when compared with other AOPs from both technical and economic points of view.

Published

2011

5. Strategies for the design and operation of enzymatic reactors for the degradation of highly and poorly soluble recalcitrant compounds

Author

Gemma Eibes, M. Teresa Moreira, Carmen López, Juan M. Lema, and Gumersindo Feijoo

Subjects

chemistry.chemical_classification, Anthracene, Membrane reactor, technology, industry, and agriculture, Aqueous two-phase system, Continuous stirred-tank reactor, Polycyclic aromatic hydrocarbon, complex mixtures, Biochemistry, Catalysis, Solvent, chemistry.chemical_compound, Membrane, chemistry, Bioreactor, Organic chemistry, Biotechnology

Abstract

The presence of recalcitrant compounds in both wastewaters and soils is an important environmental problem. Oxidative enzymes from white-rot fungi have been successfully utilised for the in vitro degradation of xenobiotics, such as the azo dye Orange II and the polycyclic aromatic hydrocarbon anthracene (compounds with high and low solubilities, respectively). Two different reactor configurations are proposed: (i) an enzymatic membrane reactor for the treatment of soluble compounds, consisting of a continuous stirred tank reactor coupled to an ultrafiltration membrane to facilitate the retention and recycling of enzyme; and (ii) a two-phase enzymatic reactor for the degradation of poorly soluble compounds, consisting of an immiscible solvent, which contains the contaminant at high concentrations, and the aqueous phase containing the enzyme and cofactors involved in the catalytic cycle. In this paper, factors affecting the design and operation of both systems are discussed, and experimental results concerning the efficiency and stability of the processes are presented.

Published

2007