Your search keyword '"Marta E. Clares"' showing total 2 results

1. Cadmium removal by Anabaena sp. ATCC 33047 immobilized in polyurethane foam

Author

Mercedes García-González, Miguel G. Guerrero, Marta E. Clares, Universidad de Sevilla. Departamento de Bioquímica Vegetal y Biología Molecular, and Junta de Andalucía

Subjects

Polyurethane, Environmental Engineering, chemistry.chemical_element, chemistry.chemical_compound, symbols.namesake, Adsorption, Botany, Environmental Chemistry, Cadmium, Aqueous solution, biology, Anabaena, Algal immobilization, Biosorption, Langmuir adsorption model, biology.organism_classification, chemistry, Wastewater, Heavy metals, symbols, General Agricultural and Biological Sciences, Nuclear chemistry

Abstract

The nitrogen-fixing cyanobacterium Anabaena sp. ATCC 33047, which generates substantial amounts of exopolysaccharide, was immobilized by entrapment within the reticulate network of polyurethane foam discs. The immobilized Anabaena sp. system has been investigated as a potential biosorbent for the removal of cadmium from aqueous solutions. The results showed that it was a highly fast process, with 80 % of the adsorption taking place in the first 10 min, reaching full equilibrium in about 50 min. Data analysis indicated that the behaviour of the system accurately fits to a monolayer adsorption model (Langmuir isotherm). The maximal biosorption capacity determined for the immobilized Anabaena sp. system was as high as 162 mg Cd (II) per gram dry biomass. The outstanding properties established for immobilized Anabaena sp. in polyurethane foam underline the relevance of such a system as an alternative to current treatments of variety effluents or wastewater contaminated with cadmium.

Published

2015

2. Assessment of the CO2 fixation capacity of Anabaena sp. ATCC 33047 outdoor cultures in vertical flat-panel reactors

Author

Marta E. Clares, Mercedes García-González, José Moreno, Miguel G. Guerrero, Universidad de Sevilla. Departamento de Bioquímica Vegetal y Biología Molecular, and Junta de Andalucía

Subjects

Biomass, Photobioreactor, Bioengineering, Biology, Photosynthesis, Applied Microbiology and Biotechnology, Models, Biological, Carbon Cycle, Photobioreactors, Continuous culture, Botany, Bioreactor, CO2 fixation, Anabaena, Carbon fixation, General Medicine, Carbon Dioxide, Pulp and paper industry, biology.organism_classification, Productivity (ecology), Biofuel, Flat panel reactor, Sunlight, Outdoor culture, Biotechnology

Abstract

The extent of biological CO2 fixation was evaluated for outdoor cultures of the cyanobacterium Anabaena sp. ATCC 33047. Culture conditions were optimized indoors in bubble-column photochemostats operating in continuous mode, subjected to irradiance cycles mimicking the light regime outdoors. Highest values achieved for CO2 fixation rate and biomass productivity were 1 and 0.6gL-1day-1, respectively. The comparison among different reactors operating simultaneously - open pond, horizontal tubular reactor and vertical flat-panel - allowed to assess their relative efficiency for the outdoor development of Anabaena cultures. Despite the higher volumetric CO2 fixation capacity (and biomass productivity) exhibited by the tubular photobioreactor, yield of the flat-panel reactor was 50% higher than that of the tubular option on a per area basis, reaching values over 35g CO2 fixed m-2d-1. The flat-panel reactor actually represents a most suitable system for CO2 capture coupled to the generation of valuable biomass by Anabaena cultures

Published

2014