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Combination of advenced oxidation processes and biological - TDX PDF

262 Pages·2007·4.71 MB·English
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UNIVERSITAT AUTÒNOMA DE BARCELONA FACULTAT DE CIÈNCIES DEPARTAMENT DE QUÍMICA COMBINATION OF ADVANCED OXIDATION PROCESSES AND BIOLOGICAL TREATMENTS FOR COMMERCIAL REACTIVE AZO DYES REMOVAL JULIA GARCÍA MONTAÑO PhD THESIS 2007 SUPERVISED BY JOSÉ PERAL PÉREZ AND FRANCESC TORRADES CARNÉ COMBINATION OF ADVANCED OXIDATION PROCESSES AND BIOLOGICAL TREATMENTS FOR COMMERCIAL REACTIVE AZO DYES REMOVAL Memoria presentada por Julia García Montaño para optar al grado de Doctora en Química Universitat Autònoma de Barcelona Bellaterra, Junio de 2007 José Peral Pérez, Profesor Titular de Universidad del Departament de Química de la Universitat Autònoma de Barcelona, y Francesc Torrades Carné, Profesor Titular de Universidad del Departament d’Enginyeria Química de la ETSEIA de Terrassa, Universitat Politècnica de Catalunya, CERTIFICAMOS: Que la presente tesis doctoral, con título “Combination of Advanced Oxidation Processes and Biological Treatments for Commercial Reactive Azo Dyes Removal”, ha sido realizada bajo nuestra dirección por Julia García Montaño en el Departament de Química de la Universitat Autònoma de Barcelona para optar al grado de Doctora en Química. Bellaterra, Mayo de 2007 José Peral Pérez Francesc Torrades Carné A todos los que quiero Patientia et labor omnia vincit San Agustín Agradecimientos Esta tesis doctoral se ha realizado gracias a la financiación de la Unión Europea (proyecto EVK1-CT-2002-00122), el Ministerio de Ciencia y Tecnología (proyecto PPQ2002-04060-C02-01), el Ministerio de Educación y Ciencia (proyecto CTQ2005- 02808) y las becas de movilidad otorgadas por el Ministerio de Educación y Ciencia (Programa de Acceso y Mejora de Grandes Instalaciones Científicas Españolas, proyecto GIC-05-17) y la Generalitat de Catalunya (Estades per a la recerca a fora de Catalunya). Quiero expresar mi gratitud al Dr. José Peral y al Dr. Francesc Torrades por los consejos y el tiempo dedicado en la dirección de esta tesis. Asimismo, agradezco el apoyo, la ayuda y la atención de todos los colegas del Grupo de Fotocatálisis y Química Verde del Departament de Química de la Universitat Autònoma de Barcelona. Particularmente al Dr. Xavier Domènech, al Dr. José Antonio Ayllón, a la Dra. María Isabel Franch y a María José Farré. Mi especial agradecimiento al Dr. José Antonio García Hortal del Departament d’Enginyeria Tèxtil i Paperera de la ETSEIA de Terrassa, Universitat Politècnica de Catalunya, y al Dr. Manuel Ignacio Maldonado y colaboradores del Grupo de Química Solar de la Plataforma Solar de Almería. Sin olvidar a Dystar Hispania, a Ciba Specialty Chemicals y a la estación de depuración de aguas residuales de Manresa. Finalmente, gracias a todas aquellas personas que han estado a mi lado alentándome y apoyándome durante todos estos años. Julia. Preface Nowadays, the remediation of textile effluents containing persistent dyestuffs is still far away to a satisfactory solution. Consequently, the increased public concern and the tighter international regulations have challenged the environmental scientists community to explore new lines to reduce environmental problems associated with such a wastewaters. Advanced Oxidation Processes (AOPs) are well known strong technologies for waste treatment purposes. Though, from an applied point of view, they still require further advancement and extent. A new promising application field is their integration with biological treatments, while taking advantage of the individual potentialities of each other. In this direction, the investigation developed through this doctoral dissertation deals with the coupling of an AOP –fundamentally the photo-Fenton process– and a conventional biological treatment to treat solutions polluted with commercial reactive azo dyes. ii COMBINATION OF AOPS AND BIOLOGICAL TREATMENTS FOR COMMERCIAL REACTIVE AZO DYES REMOVAL The memory, presented as a compendium of publications, is divided in the following chapters: Introduction, Goal and Scope of the Work, Materials and Methods, Results and Discussion, Concluding Remarks and Annexes. The Introduction chapter highlights those aspects more significant for the present experimental work understanding. The main topics regarding reactive dyes and textile effluents, the conventional biological treatments, the AOPs used in this work, as well as the different likely AOPs-biological coupling strategies have been described. The chapter concludes with a brief introduction to the Life Cycle Assessment (LCA) as a tool for quantitative evaluation of the environmental repercussion of processes, such as AOP based treatments. The Goal and Scope of the Work outlines the main scope and aims of this thesis. The Materials and Methods chapter has been included into the memory in order to extend and detail the experimental section of publications, thus facilitating repeatability and further research in this application field. The Results and Discussion chapter comprises the following five interrelated publications. The issue begins with an overview of the various studies –including unpublished results– emphasising major results and accomplished goals. Decolourisation and mineralisation of homo- and hetero-bireactive dyes under Fenton and photo-Fenton conditions Coloration Technology, 120 (2004) 188-194 Decolorization and mineralization of commercial reactive dyes under solar light assisted photo-Fenton conditions Solar Energy, 77 (2004) 573-581 Degradation of Procion Red H-E7B reactive dye by coupling a photo- Fenton system with a sequencing batch reactor Journal of Hazardous Materials, 134 (2006) 220-229 Combining photo-Fenton process with aerobic sequencing batch reactor for commercial hetero-bireactive dye removal Applied Catalysis B: Environmental, 67 (2006) 86-92 PREFACE iii Environmental assessment of different photo-Fenton approaches for commercial reactive dye removal Journal of Hazardous Materials, 138 (2006) 218-225 Following Results and Discussion, the Concluding Remarks chapter lists the general conclusions drawn from the present work. Finally, the Annexes encompass several unpublished results as well as some useful supporting information. The unpublished results include the below works submitted for publication. The first of them has been developed during a research stay at the Plataforma Solar de Almería (PSA, Spain). Pilot plant scale reactive dyes degradation by solar photo-Fenton and biological processes The testing of several biological and chemical coupled treatments for Cibacron Red FN-R azo dye removal TABLE OF CONTENTS Table of Contents ABBREVIATIONS AND SYMBOLS.......................................................................................I CHAPTER 1. INTRODUCTION 1 1.1. REACTIVE DYES........................................................................................................3 1.1.1. Structure of reactive dyes................................................................................4 1.1.2. Dyeing with reactive dyes................................................................................5 1.1.3. Environmental concern of reactive dyes.......................................................8 1.2. TEXTILE WASTEWATERS.........................................................................................9 1.2.1. Nature and environmental impact...................................................................9 1.2.2. Textile wastewater treatments.......................................................................10 1.3. BIOLOGICAL TREATMENTS...................................................................................12 1.3.1. Fundamentals..................................................................................................12 1.3.2. Aerobic treatment............................................................................................14 1.3.3. Anaerobic treatment.......................................................................................16 1.3.4. Biological systems..........................................................................................18 1.3.4.1. Suspended growth systems..........................................................................18 1.3.4.2. Immobilised growth systems.........................................................................19 1.4. ADVANCED OXIDATION PROCESSES (AOPs).....................................................20 1.4.1. Fenton and photo-Fenton processes............................................................22

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COMBINATION OF ADVANCED OXIDATION Advanced Oxidation Processes ( AOPs) are well known strong technologies for . Fundamental chemistry.
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