Luigi RIZZO | TRATTAMENTO ACQUE E RIUTILIZZO
Luigi RIZZO TRATTAMENTO ACQUE E RIUTILIZZO
cod. 0622500034
TRATTAMENTO ACQUE E RIUTILIZZO
| 0622500034 | |
| DEPARTMENT OF CIVIL ENGINEERING | |
| EQF7 | |
| ENVIRONMENTAL AND TERRITORIAL ENGINEERING | |
| 2019/2020 |
| OBBLIGATORIO | |
| YEAR OF COURSE 1 | |
| YEAR OF DIDACTIC SYSTEM 2017 | |
| ANNUALE |
| SSD | CFU | HOURS | ACTIVITY | ||
|---|---|---|---|---|---|
| TRATTAMENTO E RIUTILIZZO ACQUE REFLUE URBANE | |||||
| ICAR/03 | 6 | 60 | LESSONS | ||
| TRATTAMENTO REFLUI INDUSTRIALI E POTABILIZZAZIONE | |||||
| ICAR/03 | 6 | 60 | LESSONS | ||
| Objectives | |
|---|---|
| LEARNING OF (I) TECHNICAL SOLUTIONS FOR DRINKING WATER, URBAN AND INDUSTRIAL WASTEWATER TREATMENT, (II) DESIGN CRITERIA, AND (III) SOLUTIONS FOR MANAGEMENT AND OPERATION OF THE TREATMENT PLANTS. KNOWLEDGE AND UNDERSTANDING KNOWLEDGE (I) OF DIFFERENT AQUEOUS MATRICES TO BE TREATED (URBAN WASTEWATER, INDUSTRIAL WASTEWATER, CONTAMINATED SURFACE WATER, CONTAMINATED GROUNDWATER), (II) OF CHEMICAL, PHYSICO-CHEMICAL AND BIOLOGICAL PROCESSES FOR WASTEWATER DISPOSAL, REUSE OR DRINKING WATER TREATMENT (III) OF INTERNATIONAL WATER/WASTEWATER REGULATION AND STANDARDS. UNDERSTANDING OF MULTI-BARRIER OPTIONS FOR (I) WASTEWATER TREATMENT (URBAN AND INDUSTRIAL) TO BE DISPOSED-OFF OR REUSED, AS WELL AS (II) SURFACE- AND GROUND-WATER TREATMENT FOR POTABLE USE. APPLIED KNOWLEDGE AND UNDERSTANDING KNOWLEDGE OF MULTI-BARRIER OPTIONS FOR (I) URBAN AND INDUSTRIAL WASTEWATER TREATMENT FOR EFFLUENT DISPOSAL OR REUSE, AND (II) DRINKING WATER TREATMENT (DWT). UNDERSTANDING OF COMPLEX ISSUES RELATED TO (I) WASTEWATER TREATMENT PLANTS (WWTPS) CHECK, (II) WWTPS AND DWTPS DESIGN AND (III) THE DESIGN OF SOLUTIONS FOR THE UPGRADING OF WWTPS. MAKING JUDGMENTS ABILITY TO SELECT THE MORE SUITABLE TECHNOLOGY AND THEIR COMBINATION (IN MULTI-BARRIER SOLUTIONS) ACCORDING TO WATER/WASTEWATER SOURCE AND TREATMENT TARGET (E.G., DISPOSAL INTO THE SEWAGE, DISPOSAL IN TO SURFACE WATER, WATER REUSE, DRINKING WATER TREATMENT). COMMUNICATION SKILLS ABILITY TO INTRODUCE AND DISCUSS THE HOMEWORK ABOUT EITHER INDUSTRIAL WASTEWATER TREATMENT PLANT OR DRINKING WATER TREATMENT PLANT DESIGN. ABILITY TO WORK IN GROUP. LEARNING SKILLS ABILITY TO APPLY THE KNOWLEDGE LEARNED IN THE CLASS TO DIFFERENT SCENARIO OF WATER/WASTEWATER TREATMENT. |
| Prerequisites | |
|---|---|
| BACKGROUND ON BIOLOGICAL PROCESSES FOR WASTEWATER TREATMENT. |
| Contents | |
|---|---|
| MODULE 1 1. URBAN WASTEWATER TREATMENT PLANT: DISCUSSION OF DIFFERENT OPTIONS FOR URBAN WASTEWATER TREATMENT (10 HOURS THEORY, 2 HOURS EXERCISE). 2. BIOLOGICAL REMOVAL OF NUTRIENTS: DESIGN OF TREATMENT/PROCESSES FOR NUTRIENT REMOVAL FROM URBAN WASTEWATER (E.G., NITRIFICATION /DENITRIFICATION) (3 HOURS THEORY). 3.NEW/EMERGING BIOLOGICAL PROCESSES/TECHNOLOGIES: MEMBRANE BIOLOGICAL REACTORS (MBR), MOVING BED BIOFILM REACTORS (MBBR), BIOLOGICAL AERATED FILTERS (BAF), UPFLOW ANAEROBIC SLUDGE BLANKET (UASB) REACTORS, ETC. DESIGN AND CHECK (10 HOURS THEORY, 5 HOURS EXERCISE). 4. TERTIARY/ADVANCED TREATMENT OF URBAN WASTEWATER: FILTRATION (PROCESS AND TECHNOLOGIES), INTRODUCTION TO ADSORPTION BY ACTIVATED CARBON AND OXIDATION BY OZONE (7 HOURS THEORY) 5.SMALL WASTEWATER TREATMENT PLANTS: ROTATING BIOLOGICAL CONTACTORS, CONSTRUCTED WETLANDS, IMHOFF TANKS; OVERVIEW OF POSSIBLE OPTIONS (4 HOURS THEORY, 3 HOURS EXERCISE). 6. REUSE OF URBAN WASTEWATER: OVERVIEW OF ITALIAN AND INTERNATIONAL REGULATIONS, PROCESSES AND TECHNOLOGIES (5 HOURS THEORY). 7. MANAGEMENT AND OPERATION OF URBAN WASTEWATER TREATMENT PLANTS: CHECK, UPGRADING, PROCESS CONTROL, OPERATING PROBLEMS (3 HOURS THEORY). 8. DESIGN CRITERIA AND COSTS (3 HOURS THEORY) 9. LABORATORY (5 HOURS) MODULE 2 1.PHYSICAL, CHEMICAL AND PHYSICO-CHEMICAL PROCESSES FOR WATER AND WASTEWATER TREATMENT: COAGULATION, PRECIPITATION, AIR STRIPPING, OXIDATION, ADVANCED OXIDATION PROCESSES (AOPS), DISINFECTION, ION EXCHANGE, ADSORPTION (20 HOURS THEORY, 2 HOURS EXERCISE). 2.ADVANCED TREATMENT OF URBAN WASTEWATER: EMERGING CONTAMINANTS REMOVAL, WASTEWATER REUSE, DIFFERENT OPTIONS FOR FULL SCALE APPLICATIONS, DESIGN (5 HOURS THEORY). 3. INDUSTRIAL WASTEWATER TREATMENT: CHARACTERISTICS OF INDUSTRIAL WASTEWATER (E.G., AGRO-FOOD, TEXTILE, TANNERY ETC.), DIFFERENT OPTIONS FOR FULL SCALE APPLICATIONS, DESIGN (10 HOURS THEORY). 4. PHYSICO-CHEMICAL PROCESSES FOR NUTRIENTS REMOVAL: AIR STRIPPING, CHEMICAL OXIDATION, PRECIPITATION (2 HOURS THEORY, 1 HOURS EXERCISE). 5. DRINKING WATER TREATMENT: SURFACE AND GROUND-WATER CHARACTERISTICS, TYPICAL AND EMERGING POLLUTANTS, NATIONAL AND INTERNATIONAL LAWS FOR DRINKING WATER, DIFFERENT APPROACHES FOR DISINFECTION BY-PRODUCTS (DBPS) CONTROL, DIFFERENT OPTIONS FOR FULL SCALE APPLICATIONS AND DESIGN CRITERIA, ECO-SUSTAINABLE OPTIONS FOR DEVELOPING COUNTRIES (8 HOURS THEORY, 2 HOURS EXERCISE). 6. LABORATORY (10 HOURS) |
| Teaching Methods | |
|---|---|
| FRONTAL LECTURE, PRACTICE EXERCISES, LABORATORY EXPERIENCE, DESIGN WORKING-GROUP HOMEWORK, TECHNICAL VISITS OF WATER/WASTEWATER TREATMENT PLANTS. IN PARTICULAR THE CLASS INCLUDES TWO MODULES WITH APPROXIMATELY 4.5 ECTS OF FRONTAL LECTURES, 1 ECTS OF EXERCISES, AND 0.5 ECTS OF LABORATORY/VISIT TO WATER TREATMENT PLANT FOR MODULE 1 AND 4.5 ECTS OF FRONTAL LECTURES, 0.5 ECTS OF EXERCISES, AND 1 ECTS OF LABORATORY/VISIT TO WATER TREATMENT PLANT FOR MODULE 2. THE DESIGN WORKING GROUP HOMEWORK IS FOCUSED ON (I) THE DESIGN OF THE UPGRADING OF AN URBAN WASTEWATER TREATMENT PLANT OR (II) THE DESIGN OF AN INDUSTRIAL WASTEWATER TREATMENT PLANT OR (III) THE DESIGN OF A DRINKING WATER TREATMENT PLANT. LABORATORY ACTIVITY INCLUDES EXPERIMENTAL TESTS AND RELATED MEASUREMENTS ACCORDING TO THE TOPICS ADDRESSED DURING THE COURSE. CLASS ATTENDING IS NOT MANDATORY. |
| Verification of learning | |
|---|---|
| INTERVIEW AND HOMEWORK WILL BE THE TOOLS TO EVALUATE LEARNING SKILLS. THE AIM IS (I) TO PROMOTE AND EVALUATE STUDENTS' CAPACITY TO SUCCESSFULLY OPERATE IN WORKING GROUPS (QUALITY OF THE HOMEWORK, SPEAKER SKILLS, ANSWER TO QUESTIONS WILL BE EVALUATED) AS WELL AS (II) TO CHECK BY AN INTERVIEW STUDENT CAPACITY TO FIND EFFECTIVE SOLUTIONS TO THE TREATMENT OF SPECIFIC WATER AND WASTEWATER. THE FINAL EVALUATION MARK WILL TAKE INTO ACCOUNT BOTH HOMEWORK OPEN EXPLANATION AND DISCUSSION, AND SUBSEQUENT INDIVIDUAL INTERVIEW. TO AWARD THE STUDENT THE HIGHEST GRADE THE LEVEL OF DEEPENING OF THE TOPICS INTRODUCED DURING THE CLASS, CAPACITY AND CLARITY IN THE PRESENTATION AND THE INTERVIEW, CORRELATION CAPACITY BETWEEN DIFFERENT ARGUMENTS AND AUTONOMY OF JUDGMENT WILL BE CONSIDERED. |
| Texts | |
|---|---|
| -WASTEWATER ENGINEERING: TREATMENT AND REUSE 4TH EDITION. METCALF & EDDY. MCGRAW HILL. 2006. -DEPURAZIONE DELLE ACQUE DI PICCOLE COMUNITÀ: TECNICHE NATURALI E TECNICHE IMPIANTISTICHE. MASOTTI L., VERDICCHI P. HOEPLI. 2005. -WATER TREATMENT, AWWA, 2005. (ADDITIONAL TEXT) -CONTROL OF DISINFECTION BY PRODUCTS IN DRINKING WATER SYSTEMS. A. NIKOLAOU, L. RIZZO, H. SELCUK. NOVA SCIENCE PUBLISHER. 2007. (ADDITIONAL TEXT) -COURSE NOTES AND HANDOUTS |
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