Assessing the effectiveness of chemical treatment with nanomaterials in improving the quality of different industrial effluents

Industrial activities are the major sources of pollution in all environments. Depending on the type of industry, various levels of organic and inorganic pollutants are being continuously discharged into the environment. Although, several kinds of physical, chemical, biological or the combination of methods have been proposed and applied to minimize the impact of industrial effluents, few have proved to be totally effective in terms of removal rates of several contaminants, toxicity reduction or amelioration of physical and chemical properties. Hence, it is imperative to develop new and innovative methodologies for industrial wastewater treatment. In this context nanotechnology arises announcing the offer of new possibilities for the treatment of wastewaters mainly based on the enhanced physical and chemical proprieties of nanomaterials (NMs), which can remarkably increase their adsorption and oxidation potential. Although applications of NMs may bring benefits, their widespread use will also contribute for their introduction into the environment and concerns have been raised about the intentional use of these materials. Further, the same properties that make NMs so appealing can also be responsible for producing ecotoxicological effects. In a first stage, with the objective of selecting NMs for the treatment of organic and inorganic effluents we first assessed the potential toxicity of nanoparticles of nickel oxide (NiO) with two different sizes (100 and 10-20 nm), titanium dioxide (TiO2, < 25 nm) and iron oxide (Fe2O3, ≈ 85x425 nm). The ecotoxicological assessment was performed with a battery of assays using aquatic organisms from different trophic levels. Since TiO2 and Fe2O3 were the NMs that presented lower risks to the aquatic systems, they were selected for the second stage of this work. Thus, the two NMs pre-selected were tested for the treatment of olive mill wastewater (OMW). They were used as catalyst in photodegradation systems (TiO2/UV, Fe2O3/UV, TiO2/H2O2/UV and Fe2O3/H2O2/UV). The treatments with TiO2 or Fe2O3 combined with H2O2 were the most efficient in ameliorating some chemical properties of the effluent. Regarding the toxicity to V. fischeri the highest reduction was recorded for the H2O2/UV system, without NMs. Afterwards a sequential treatment using photocatalytic oxidation with NMs and degradation with white-rot fungi was applied to OMW. This new approach increased the reduction of chemical oxygen demand, phenolic content and ecotoxicity to V. fischeri. However, no reduction in color and aromatic compounds was achieved after 21 days of biological treatment. The photodegradation systems were also applied to treat the kraft pulp mill and mining effluents. For the organic effluent the combination NMs and H2O2 had the best performances in reduction the chemical parameters as well in terms of toxicity reduction. However, for the mine effluent the best (TiO2/UV and Fe2O3/UV) were only able to significantly remove three metals (Zn, Al and Cd). Nonetheless the treatments were able of reducing the toxicity of the effluent. As a final stage, the toxicity of solid wastes formed during wastewater treatment with NMs was assessed with Chironomus riparius larvae, a representative species of the sediment compartment. Certain solid wastes showed the potential to negatively affect C. riparius survival and growth, depending on the type of effluent treated. This work also brings new insights to the use of NMs for the treatment of industrial wastewaters. Although some potential applications have been announced, many evaluations have to be performed before the upscaling of the chemical treatments with NMs.

Novos compostos orgânicos reticuláveis para aplicações em células fotovoltaicas

Trabalho Final de Mestrado para obtenção do grau de mestre em Engenharia Química e Biológica

Síntese de um novo polímero conjugado e reticulável e sua aplicação em células fotovoltaicas

Trabalho Final de Mestrado para obtenção do Grau de Mestre em Engenharia Química e Biológica

Tratamento de água subterrânea contaminada por compostos orgânicos voláteis: considerações sobre o dimensionamento e simulação de colunas de arrastamento por ar

A água subterrânea representa cerca de 97% de água doce existente na terra. A sua global disponibilidade, aliada às suas qualidades naturais e à inexistência de fontes superficiais de abastecimento em largas áreas continentais, tem feito, ao longo dos tempos, com que a sua utilização, nomeadamente doméstica, tenha vindo a ser uma constante. No entanto, estes tipos de reservatórios subterrâneos - aquíferos - são de uma vulnerabilidade extrema no que se refere à contaminação por poluentes. Não só são facilmente contamináveis, como se tornam difícil e morosamente recuperáveis. As normas que definem a qualidade de determinada água impõem limitações específicas para os determinados usos (no nosso país vigora o Dec.Lei nº74/90 de 7 de Março).

Calidad acuática y residuos de contaminantes orgánicos persistentes (COPs) en el área costera del Callao, Perú. Inicios del verano austral 2005

Estudia el área costera del Callao, para evaluar los parámetros de calidad acuática y residuos contaminantes orgánicos.

Parámetros ambientales y residuo de contaminantes orgánicos persistentes (COPs) en el litoral costero de Pisco - Paracas, Perú. Invierno austral 2005

Analiza el litoral costero de Pisco-Paracas y las características físico-químicas del mar en las áreas.

Residuos de contaminantes orgánicos persistentes (COPs) en el área costera del Callao, Perú. Invierno austral 2005

Estudia tres especies propias de sustrato arenoso-rocoso o pedregoso.

Residuos de contaminantes orgánicos persistentes (COPs) en el área costera del Callao, Perú. Verano austral 2006

Estudia los residuos contaminantes orgánicos persistentes en la isla San Lorenzo.

Validación de un método analítico para la determinación de contaminantes orgánicos volátiles en agua por cromatografía de gases

Tesis (Maestría en Ciencias con Especialidad en Química Analítica Biomédica) UANL

Nuevos materiales orgánicos luminiscentes vía condensación aldólica

Tesis ( Maestro en Ciencias de la Ingeniería Mecánica con Especialidad en Materiales) U.A.N.L.

Biorreguladores de crecimiento, fertilizantes químicos y orgánicos en tomate (Lycopersicon esculentum MILL.) de invernadero.

Tesis (Maestría en Ciencias en Producción Agrícola) UANL, 2011.

Efecto de la aplicación de ácidos orgánicos de bajo peso molecular en la Biodisponibilidad de Pb y Zn en un sistema usando Brassica juncea.

Tesis (Maestría en Ciencias con Orientación en Procesos Sustentables) UANL, 2010.

Caracterización de ácidos orgánicos de bajo peso molecular presentes en exudados radiculares.

Tesis (Maestría en Ciencias con Orientación en Química Analítica Ambiental) UANL, 2011.

Nanocompuestos de polianilina

Tesis (Maestría en Ingeniería Mecánica con Especialidad en Materiales) UANL, 2012.

Efecto de biofertilizantes y productos orgánicos en la producción de nopal verdura.

Tesis (Maestría en Ciencias en Producción Agrícola) UANL, 2014.