Removal of natural organic matter from aqueous solutions using electrocoagulation pulsed current: optimization using response surface methodology.

The use of the pulsed current can be an alternative to decrease the electrode polarization, as well as achieving lower energy consumption. This study investigated the electrocoagulation through pulsed current for the removal of natural organic matter from water. The experiments were carried out using Box-Behnken factorial design with the response surface methodology for the design of experiments, modeling and interpreting of the results. The electrocoagulation cell consisted of an acrylic reactor with 4 L capacity with four electrodes of aluminum, in parallel connection mode. The experimental independent variables studied were: current density (5.5 to 44.5 A m-2), electrodes spacing (2 to 7.6 mm), stirring rate (200 to 1,000 rpm), frequency (500 to 5,000 Hz), humic acid concentration (5 to 20 mg L-1) and NaCl (100 to 300 mg L-1) as supporting electrolyte, evaluating the residual apparent color (RAC) and electric energy consumption (EEC). The pH of the solution increased during the experiments, reaching basic values. The response surface regression procedure was employed to fit the second-order polynomial, and the model fitted well to the obtained values, reaching R2 0.9995 (RAC) and R2 0.9989 (EEC). The lowest RAC was 11.8 Hazen units (96.2% color removal), where the EEC was 0.393 kWh m-3.

Delineamento Box-Behnken para remoção de DQO de efluente têxtil utilizando eletrocoagulação com corrente contínua pulsada / Box-Behnken design for COD removal of textile wastewater using electrocoagulation with pulsed DC

RESUMO A remoção de poluentes de efluentes industriais de forma efetiva e economicamente viável ainda é um desafio. Dessa forma, o presente trabalho propôs investigar a tecnologia de eletrocoagulação (EC) para o tratamento de efluente têxtil utilizando corrente contínua pulsada (CCP). A metodologia de superfície de resposta Box-Behnken foi utilizada para analisar e otimizar as condições operacionais, visando à máxima remoção de demanda química de oxigênio (DQO). Os experimentos foram realizados com um volume reacional de 2,6 L, em modo batelada. Diante dos resultados obtidos, a configuração ótima considerada foi: velocidade de agitação = 200 rpm, frequência dos pulsos = 1.000 Hz e espaçamento entre os eletrodos = 1 mm, em 50 minutos de EC. Nessas condições foi obtida uma remoção de DQO de 81,23% (valor remanescente de 152 mg O2.L-1). Em adição, verificou-se que o processo de EC também é eficaz para a redução de cor, turbidez, sólidos suspensos totais, sulfato e sulfeto. A concentração de íons cloreto não foi alterada durante a EC, apresentando-se como um aspecto favorável para a reutilização do efluente tratado no próprio processo produtivo têxtil, o qual demanda uma elevada concentração de NaCl.

ABSTRACT The effective and economically viable removal of industrial wastewater pollutants is still a challenge. Thus, this study proposed to investigate the electrocoagulation technology (EC) for the treatment of textile effluent using pulsed direct current (CCP). The methodology of Box-Behnken response surface was used to analyze and optimize the operating conditions, aimed at maximum chemical oxygen demand (COD) removal. The experiments were performed with a reaction volume of 2.6 L in batch mode. Based on these results, the optimal configuration was: agitation speed = 200 rpm, frequency of pulses = 1,000 Hz and spacing between electrodes = 1 mm, in 50 minutes of EC. Under these conditions it was obtained a COD removal of 81.23% (remainder value of 152 mg O2.L-1). In addition, it was found that the EC process is also effective for reduction of color, turbidity, total suspended solids, sulfate and sulfide. The concentration of chloride ions was not modified during the EC, presenting itself as a favorable aspect for the reuse of treated wastewater in the textile production process itself, which demands a high concentration of NaCl.

O uso da cavitação hidrodinâmica aplicado ao tratamento de água / Use of the cavitation hydrodynamics applied to water treatment

A cavitação hidrodinâmica se apresenta como um processo oxidativo avançado (POA), permitindo integrar-se aos processos de tratamento de água para consumo humano. Esta pesquisa teve como objetivo investigar os efeitos de diferentes reatores de cavitação hidrodinâmica para tratar água contaminada com esgoto doméstico, avaliando a contaminação microbiológica e os parâmetros físico-químicos. Foram construídos três modelos de reatores com diferentes rotores (R1, R2 e R3). Os resultados obtidos nos reatores R1, R2 e R3 mostraram redução nas concentrações dos parâmetros químicos em todas as amostras, particularmente nitritos, nitratos, bicarbonatos e dureza total, ao passo que a contaminação microbiológica teve inativação completa dos microrganismos estudados (coliformes totais e Escherichia coli).

The hydrodynamic cavitation is presented as an advanced oxidation process (AOP), allowing to integrate the processes of water treatment for human consumption. This research aimed to investigate the effects of different hydrodynamic cavitation reactors for treating water contaminated with sewage, evaluating the microbiological contamination and physicochemical parameters. Three models were constructed with different rotors reactors (R1, R2 and R3). The results obtained in the reactors R1, R2 and R3 have shown a reduction in the concentrations of chemical parameters in all samples, particularly nitrites, nitrates, bicarbonates, and total hardness, while the microbiological contamination was completely inactivation (total coliforms and Escherichia coli).