Sewage and Industrial Wastewater Treatment Insights

Upcoming Schedules

Date	Venue	Duration	Fee (USD)
11 Aug - 15 Aug 2025	Live Online	5 Day	2750
08 Sep - 12 Sep 2025	Live Online	5 Day	2750
17 Nov - 21 Nov 2025	Live Online	5 Day	2750
22 Dec - 26 Dec 2025	Live Online	5 Day	2750
13 Jan - 17 Jan 2025	Live Online	5 Day	2750
17 Feb - 21 Feb 2025	Live Online	5 Day	2750
12 May - 16 May 2025	Live Online	5 Day	2750
30 Jun - 04 Jul 2025	Live Online	5 Day	2750

Course Overview

Effective sewage and industrial wastewater treatment is critical for sustainable environmental management, regulatory compliance, and public health protection. Pideya Learning Academy’s training program, “Sewage and Industrial Wastewater Treatment Insights,” provides an in-depth understanding of wastewater treatment methods, advanced technologies, and environmental sustainability strategies. This course is designed to equip professionals with the knowledge and skills required to implement efficient and responsible wastewater treatment solutions while minimizing environmental impact.
The rapid industrialization and urbanization of recent decades have significantly increased wastewater generation. According to the United Nations, over 80% of the world’s wastewater is discharged into the environment untreated, posing severe risks to ecosystems and public health. Additionally, the World Bank reports that inadequate wastewater management costs countries 2%–4% of their GDP due to health and environmental damages. The adoption of innovative treatment technologies and best practices can significantly mitigate these effects and contribute to a cleaner, more sustainable future.
This course covers various aspects of wastewater treatment, including the identification of pollution sources, selection of appropriate treatment processes, regulatory frameworks, and sustainability measures. The training will explore biological, chemical, and physical treatment methods, focusing on process optimization to enhance efficiency. Participants will also gain insight into wastewater reuse, sludge management, and emerging technologies in wastewater treatment.
Key highlights of this Pideya Learning Academy training include:
Understanding Wastewater Characteristics: Detailed analysis of sewage and industrial wastewater composition, sources, and pollutants.
Advanced Treatment Technologies: Exploration of cutting-edge biological, chemical, and physical treatment methods for various industries.
Process Optimization: Strategies for improving the efficiency and sustainability of wastewater treatment plants.
Regulatory Compliance: In-depth study of global and local environmental protection laws and guidelines.
Environmental Impact & Sustainability: Assessment of wastewater management’s effects on ecosystems and public health.
Sludge Management & Wastewater Reuse: Best practices for handling and repurposing treated wastewater and sludge.
Case Studies & Industry Applications: Real-world examples of successful wastewater treatment implementations across different sectors.
By the end of this course, participants will be well-equipped to implement best practices in wastewater treatment, ensuring compliance with environmental regulations while contributing to sustainable development.

Key Takeaways:

Understanding Wastewater Characteristics: Detailed analysis of sewage and industrial wastewater composition, sources, and pollutants.
Advanced Treatment Technologies: Exploration of cutting-edge biological, chemical, and physical treatment methods for various industries.
Process Optimization: Strategies for improving the efficiency and sustainability of wastewater treatment plants.
Regulatory Compliance: In-depth study of global and local environmental protection laws and guidelines.
Environmental Impact & Sustainability: Assessment of wastewater management’s effects on ecosystems and public health.
Sludge Management & Wastewater Reuse: Best practices for handling and repurposing treated wastewater and sludge.
Case Studies & Industry Applications: Real-world examples of successful wastewater treatment implementations across different sectors.

Understanding Wastewater Characteristics: Detailed analysis of sewage and industrial wastewater composition, sources, and pollutants.
Advanced Treatment Technologies: Exploration of cutting-edge biological, chemical, and physical treatment methods for various industries.
Process Optimization: Strategies for improving the efficiency and sustainability of wastewater treatment plants.
Regulatory Compliance: In-depth study of global and local environmental protection laws and guidelines.
Environmental Impact & Sustainability: Assessment of wastewater management’s effects on ecosystems and public health.
Sludge Management & Wastewater Reuse: Best practices for handling and repurposing treated wastewater and sludge.
Case Studies & Industry Applications: Real-world examples of successful wastewater treatment implementations across different sectors.

Course Objectives

Upon completing this training, participants will:
Gain a solid understanding of wastewater treatment principles and their role in environmental protection.
Learn to identify and analyze pollutants in sewage and industrial wastewater.
Explore advanced technologies for efficient wastewater treatment.
Understand strategies for optimizing treatment processes to improve sustainability.
Gain knowledge of regulatory compliance and best practices for environmental protection.
Evaluate the impact of wastewater management on public health and ecosystems.
Develop an understanding of sludge treatment and wastewater reuse for resource optimization.

Personal Benefits

Participants will gain:
A deeper understanding of wastewater treatment technologies and their applications.
Increased confidence in managing and optimizing treatment processes.
Enhanced career prospects in the environmental and wastewater management sectors.
Knowledge of regulatory frameworks and their implications for compliance.
Practical skills to implement sustainable wastewater treatment solutions in various industries.

Organisational Benefits

Who Should Attend

This course is ideal for:
Environmental engineers and wastewater treatment specialists.
Industrial facility managers and process engineers.
Environmental health and safety officers.
Compliance and regulatory professionals.
Municipal and water utility staff.
Professionals involved in the design, operation, and management of wastewater treatment systems.
By participating in this Pideya Learning Academy training, attendees will gain valuable insights into best practices and emerging technologies in sewage and industrial wastewater treatment. This course will empower them to contribute to a cleaner and more sustainable future.

Course Outline

Module 1: Principles of Wastewater Characterization and Treatment

Classification and Sources of Wastewater Contaminants Physical, Chemical, and Biological Characteristics of Wastewater Microbial and Toxicological Aspects of Wastewater Hydraulic and Organic Loading in Treatment Facilities Environmental and Public Health Impacts of Untreated Wastewater Fundamentals of Wastewater Treatment Plant Design Overview of Municipal vs. Industrial Wastewater Characteristics

Module 2: Preliminary and Primary Treatment Processes

Screening and Grit Removal Techniques Flow Equalization and Hydraulic Control Sedimentation and Primary Clarification Methods Chemical Precipitation for Suspended Solids Removal Oil and Grease Separation in Industrial Wastewater Primary Sludge Handling and Dewatering

Module 3: Advanced Biological Wastewater Treatment

Fundamentals of Microbial Metabolism in Treatment Systems Activated Sludge Process and Variants (Extended Aeration, MLE, Oxidation Ditches) Biofilm-Based Treatment: Trickling Filters and Moving Bed Biofilm Reactors (MBBR) Sequencing Batch Reactors (SBR) and Membrane Bioreactors (MBR) Anaerobic Treatment Technologies and Biogas Recovery Nutrient Removal Strategies: Nitrogen and Phosphorus Management Biological Treatment Optimization for Industrial Effluents

Module 4: Physical-Chemical Treatment Technologies

Coagulation, Flocculation, and Sedimentation Principles Membrane Filtration Technologies (Microfiltration, Ultrafiltration, Reverse Osmosis, Nanofiltration) Adsorption and Ion Exchange for Heavy Metal Removal Advanced Oxidation Processes (AOPs) for Organic Contaminants Electrochemical Treatment Methods (Electrocoagulation, Electrodialysis) Zero Liquid Discharge (ZLD) and High-Recovery Systems Desalination and Brine Management Strategies

Module 5: Sludge Processing and Resource Recovery

Sludge Thickening, Conditioning, and Dewatering Techniques Anaerobic Digestion for Energy and Biogas Production Sludge Stabilization, Composting, and Land Application Thermal Drying and Incineration of Biosolids Nutrient Recovery from Sludge: Struvite Precipitation and Ammonia Stripping Regulatory and Environmental Guidelines for Sludge Disposal

Module 6: Industrial Wastewater Treatment and Compliance

Characterization of Industrial Effluents (Oil & Gas, Pharmaceuticals, Textiles, Food & Beverage) Physicochemical Treatment for Heavy Metal and Toxin Removal High-Strength Organic Wastewater Treatment Technologies Strategies for Meeting Industry-Specific Discharge Standards Process Water Recycling in Manufacturing Sectors Real-Time Effluent Monitoring and Pollution Control Measures Sustainable Industrial Wastewater Management Practices

Module 7: Environmental Compliance and Regulatory Frameworks

Overview of Global and Regional Wastewater Discharge Standards Regulatory Requirements for Public and Private Treatment Facilities Conducting Environmental Impact Assessments (EIA) for Water Projects Effluent Quality Monitoring and Reporting Procedures Compliance Audits and Risk Management in Wastewater Operations Corporate Social Responsibility (CSR) and Environmental Ethics

Module 8: Water Reuse and Sustainable Resource Management

Benefits of Wastewater Reuse in Industrial and Municipal Applications Reclaimed Water Quality and Treatment Requirements Greywater Recycling Technologies for Non-Potable Applications Indirect and Direct Potable Reuse (IPR/DPR) Systems Economic and Environmental Implications of Water Reuse Case Studies of Successful Water Reuse Projects Public Perception and Acceptance of Reclaimed Water

Module 9: Innovations and Emerging Trends in Wastewater Management

Digitalization and IoT Applications in Water Treatment Facilities Artificial Intelligence and Machine Learning for Process Optimization Green Technologies for Sustainable Wastewater Treatment Resource Recovery and Circular Economy Approaches Carbon Footprint Reduction Strategies in Water and Wastewater Treatment Future Challenges and Global Trends in Water and Sanitation

Module 10: Process Optimization and Operational Efficiency

Energy Efficiency in Wastewater Treatment Facilities Aeration System Optimization and Energy Savings Process Control and Automation in Water Treatment Plants Sludge Minimization Strategies and Waste Reduction Hydraulic Modeling and Computational Fluid Dynamics (CFD) in Design Cost-Benefit Analysis of Different Wastewater Treatment Technologies Sustainable Development Goals (SDGs) and Wastewater Management

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