Lecture 1 - Course Introduction
Lecture 2 - Sources and Types of Wastewater
Lecture 3 - Pollutants in Wastewater: Point and Non-point Sources
Lecture 4 - Wastewater Management: Concept of Treatment and Recycling
Lecture 5 - Wastewater Management: Issues and Challenges
Lecture 6 - Wastewater Generation and Quantity Estimation
Lecture 7 - Quantity Estimation of Sewage
Lecture 8 - Population Forecasting Methods
Lecture 9 - Quantity Estimation of Sewage Flow
Lecture 10 - Sewage Quantity Estimation: Practice Problems
Lecture 11 - Wastewater Characteristics: Quality Parameters
Lecture 12 - Wastewater Characteristics: Quality Parameters (Continued...)
Lecture 13 - Wastewater Characteristics: Quality Parameters (Continued...)
Lecture 14 - Wastewater Characteristics: Quality Parameters (Continued...)
Lecture 15 - Wastewater Characteristics: Practice Problems
Lecture 16 - Fate and Transport of Contaminants Discharged in River
Lecture 17 - Effects on DO and BOD Natural Purification in Rivers: Effects on DO and BOD
Lecture 18 - BOD and Variations in streams Receiving Waste water
Lecture 19 - Natural Purification: Practice Problems
Lecture 20 - Engineered Treatment of Waste water:Concept of mass balance
Lecture 21 - Mass Balance: Application in Specific Cases
Lecture 22 - Mass Balance in Reactors: Application and Practice Problems
Lecture 23 - Basic of Municipal Wastewater Treatment
Lecture 24 - Wastewater Treatment Units: Screening
Lecture 25 - Wastewater Treatment Units: Grit Removal and Equalization
Lecture 26 - Watsewater Treatment Units: Primary Sedimentation
Lecture 27 - Wastewater Treatment Units: Primary Sedimentation
Lecture 28 - Secondary Treatment Processes: Introduction to Biological Treatment of Wastewater
Lecture 29 - Biological Treatment of Wastewater: Microbial Growth and its Kinetics
Lecture 30 - Biological Treatment of Wastewater: Microbial Growth Kinetics
Lecture 31 - Biological Treatment of Wastewater: Activated Sludge Process
Lecture 32 - Biological Treatment of Wastewater: ASP, TF and RCB
Lecture 33 - Secondary Treatment Processes: Introduction to Anaerobic Treatment of Wastewater
Lecture 34 - Anaerobic Degradation Processes
Lecture 35 - Anaerobic Degradation: Characteristics and Applications
Lecture 36 - Anaerobic Treatment of Wastewater: UASB Reactor
Lecture 37 - Anaerobic Treatment of Wastewater: Other High Rate Anaerobic Processes
Lecture 38 - Introduction to Sludge Management
Lecture 39 - Wastewater Sludge: Quantity and Characteristics
Lecture 40 - Wastewater Sludge Processing and Treatment: Sludge Thickening
Lecture 41 - Wastewater Sludge Processing and Treatment: Sludge Stabilization and Conditioning
Lecture 42 - Wastewater Sludge Processing and Treatment: Dewatering, Hygienisation, Disposal/Reuse
Lecture 43 - Tertiary (Advanced) Treatment of Wastewater
Lecture 44 - Tertiary Treatment: Nutrients Removal
Lecture 45 - Tertiary Treatment: Adsorption and Ion Exchange
Lecture 46 - Tertiary Treatment: Membrane Processes
Lecture 47 - Tertiary Treatment: Disinfection and Chemical Treatments
Lecture 48 - Wastewater Treatment Systems: Options and Conventional Approach
Lecture 49 - Wastewater Treatment Systems: Integrated Systems: Wetlands
Lecture 50 - Alternate Wastewater Treatment Systems: SBR and SBBR
Lecture 51 - Alternate Wastewater Treatment Systems: MBR and MBBR
Lecture 52 - Concept of Wastewater Reuse and Recycling
Lecture 53 - Wastewater Reuse and Recycling Opportunities
Lecture 54 - Wastewater Reuse and Recycling Potential and Requirements
Lecture 55 - Wastewater Reuse and Recycling Regulatory Guidelines
Lecture 56 - Wastewater Reuse and Recycling: Centralized Vs Decentralized Recycling
Lecture 57 - Wastewater Reuse and Recycling: Challenges, Risks and Research Trends
Lecture 58 - Decision Making in Wastewater Reuse and Recycling
Lecture 59 - Public Acceptance for Recycled Water Use
Lecture 60 - Wastewater Reuse and Recycling: Global Practices and Case Studies
Lecture 61 - Course Summary
Lecture 62 - Course Summary (Continued...)