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Water production and wastewater treatment /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hauppauge, N.Y. :
Nova Science Publishers,
2011.
|
| Colección: | Water resource planning, development and management series.
Waste and waste management series. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- WATER PRODUCTION AND WASTEWATER TREATMENT; WATER PRODUCTION AND WASTEWATER TREATMENT; CONTENTS; PREFACE ; TREATMENT AND REUSE OF WASTEWATER FROM A PETROCHEMICAL COMPLEX ; ABSTRACT ; INTRODUCTION ; BASIC CONCEPTS ; DESCRIPTION OF TREATMENT UNITS ; EFFLUENT QUALITY ; CONCLUSIONS ; ACKNOWLEDGMENT ; REFERENCES ; ACTIVATED SLUDGE CHARACTERIZATION: EXTRACTION AND IDENTIFICATION OF HYDROLYTIC ENZYMES ; ABSTRACT ; INTRODUCTION ; MATERIAL AND METHODS ; Sludge Collection and Handling; Disintegration of Activated Sludge ; Determination of the Enzymatic Activity and Amount of Protein.
- RESULTS AND DISCUSSION CONCLUSION ; ACKNOWLEDGMENTS ; REFERENCES ; DGGE AND 16S RDNA SEQUENCING ANALYSIS OF BACTERIAL COMMUNITIES IN A MEMBRANE BIOREACTOR FOR THE REMOVAL OF PHENOL FROM OIL REFINERY WASTEWATER; ABSTRACT ; INTRODUCTION ; MATERIAL AND METHODS ; SMBR Operation ; Activated Sludge and Oil-Refinery Wastewater ; Analytical Methods ; Sampling of Activated Sludge ; DNA Extraction from Sludge Samples; PCR Amplification ; DGGE Assays ; Analysis of DGGE Fingerprints ; Sequencing of DGGE Bands ; RESULTS AND DISCUSSION; Evaluating the Efficiency of SMBR; Communities Structure Analysis.
- Communities Shifts During Phenol-Shock Loadings Phylogenetic Analysis ; CONCLUSIONS ; REFERENCES; BIOSORPTION OF CD (II) AND NI (II) FROM AQUEOUS SOLUTIONS BY CYSTOSEIRA INDICA ; ABSTRACT ; 1. INTRODUCTION ; 1.1. Physico-Chemical Methods for Heavy Metal Removal; 1.1.1. Chemical Precipitation ; 1.1.2. Membrane Filtration ; 1.1.2.1. Reverse Osmosis ; 1.1.2.2. Nanofiltration ; 1.1.3. Coagulation-Flocculation; 1.1.4. Ion-Exchange ; 1.1.5. Adsorption ; 1.1.6. Evaporation ; 1.1.7. Biosorption ; 2. DISCUSSSION ; 2.1. Materials and Preparation of Pre-Treated Biomass.
- 2.2. Batch Biosorption Experiments 2.3. Effect of pH ; 2.4. Sorption and Desorption Experiments ; 2.5. Effect of Initial Concentrations; 2.6. Effect of Biosorbent Dosage; 2.7. Biosorption Isotherms; 2.8. Effect of Contact Time ; 2.9. Kinetic Analysis ; 2.10. Conclusions ; REFERENCES ; MULTICOMPONENT REMOVAL OF HEAVY METALS FROM AQUEOUS SOLUTION USING LOW-COST SORBENTS; ABSTRACT ; 1. INTRODUCTION ; 2. DESCRIPTION OF LOW COST SORBENTS USED IN THE REMOVAL OF HEAVY METALS FROM MULTICOMPONENT MIXTURES ; 2.1. Alginate ; 2.2. Ashes ; 2.3. Bone Char ; 2.4. Chicken Feathers ; 2.5. Chitosan.
- 2.6. Crab Shell 2.7. Natural Minerals and Sediments ; 2.8. Lignin ; 2.9. Olive Wastes ; 2.10. Orange Wastes ; 2.11. Peat ; 2.12. Pine Bark ; 2.13. Sewage Sludge; 3. COMPARISON OF MULTICOMPONENT SORPTION CAPACITIES OF LOW-COST SORBENTS UNDER COMPETITIVE CONDITIONS AND THE SORBENT REGENERATION ; 3.1. Sorption Capacities ; 3.2. Regeneration of Low-Cost Sorbents ; 4. MODELING OF MULTICOMPONENT SORPTION OF HEAVY METALS ; 4.1. Description of Classical Multicomponent Sorption Models ; 4.2. Determination of Adjustable Parameters of Multicomponent Sorption Models.