Aparecido Nivaldo Módenes scite author profile

a b s t r a c tThe biodegradation kinetics of BTEX (benzene, toluene, ethylbenzene and xylene isomers) compounds were studied individually and as mixtures by using models with different levels of sophistication. In order to evaluate the performances of the unstructured models we used experimental data from literature. The system description was based on the material balances of key components for batch operations, where Monod and Andrews models were applied for the biodegradation of individual substrates. To simulate the biodegradation kinetics of substrate mixtures, models of competitive, noncompetitive and uncompetitive inhibition were applied along with the sum kinetics with interaction parameters (SKIP) models. The kinetic parameters were estimated via a global search method known as Particle Swarm Optimization (PSO). The main result of this study shows that the sophisticated biodegradation kinetics of BTEX mixtures can be successfully described by applying a SKIP model, with the main advantage being the consideration of the substrate interactions.

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Monolayer–multilayer adsorption phenomenological model: Kinetics, equilibrium and thermodynamics

Scheufele

Módenes

Borba

et al. 2016

Chemical Engineering Journal

139

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Pollutant removal from tannery effluent by electrocoagulation

Espinoza‐Quiñones

Fornari

Módenes

et al. 2009

Chemical Engineering Journal

126

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Characterization of Oreochromis niloticus fish scales and assessment of their potential on the adsorption of reactive blue 5G dye

Ribeiro¹,

Scheufele²,

Espinoza‐Quiñones³

et al. 2015

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Cadmium, Copper and Zinc Biosorption Study by Non-Living Egeria densa Biomass

Pietrobelli

Módenes

Fagundes‐Klen

et al. 2009

Water Air Soil Pollut

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In this work, the potential removal of Cd, Cu, and Zn ions by non-living macrophytes Egeria densa has been studied. The adsorption kinetic and equilibrium experiments of these three metals on E. densa were performed in batch systems with controlled temperature and constant shaking. It was observed that all metal adsorption rates have increased when the pH was increasing. A pH threshold of 5 was established for use in adsorption experiments in order to avoid the metal precipitation. For adsorption kinetic tests, the equilibrium times for all metals were around 45 to 60 min. The equilibrium data at pH 5 were better described by the Langmuir isotherm than the Freundlich one, with the adsorption rate and maximum metal content values of 0.43 L g −1 and 1.25 mequiv g −1 for Cd, 4.11 L g -−1 and 1.43 mequiv g −1 for Cu, and 0.83 L g −1 and 0.93 mequiv g −1 for Zn. These adsorption parameters for E. densa resemble or are better than those for other biosorbents already studied, suggesting that the macrophytes E. densa as a biosorbent has a good metal removal potential for applications in effluent treatment systems.

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A systems approach for CO2 fixation from flue gas by microalgae—Theory review

Kroumov

Módenes

Trigueros

et al. 2016

Process Biochemistry

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