Pideya Learning Academy

Advanced Wastewater Treatment Techniques

Upcoming Schedules

  • Live Online Training
  • Classroom Training

Date Venue Duration Fee (USD)
18 Aug - 22 Aug 2025 Live Online 5 Day 2750
01 Sep - 05 Sep 2025 Live Online 5 Day 2750
13 Oct - 17 Oct 2025 Live Online 5 Day 2750
08 Dec - 12 Dec 2025 Live Online 5 Day 2750
20 Jan - 24 Jan 2025 Live Online 5 Day 2750
17 Feb - 21 Feb 2025 Live Online 5 Day 2750
05 May - 09 May 2025 Live Online 5 Day 2750
02 Jun - 06 Jun 2025 Live Online 5 Day 2750

Course Overview

The global wastewater crisis continues to be a significant challenge, with an estimated 80% of wastewater being discharged untreated into the environment, as reported by the United Nations Environment Programme (UNEP). This alarming statistic underscores the urgent need for industries and municipalities to adopt advanced wastewater treatment technologies to mitigate environmental damage and protect public health. As urbanization and industrial activities expand, the demand for sustainable wastewater management solutions has never been more critical. Organizations must navigate stringent regulatory frameworks while optimizing treatment processes to minimize environmental impact and operational costs.
Pideya Learning Academy’s Advanced Wastewater Treatment Techniques training program is designed to equip professionals with in-depth knowledge of wastewater treatment technologies, regulatory compliance, and industry best practices. The course covers the entire wastewater treatment lifecycle, including the design, operation, and maintenance of sewage and industrial effluent treatment plants. Participants will develop a strong understanding of modern treatment methodologies, enabling them to enhance system performance and ensure regulatory adherence. With the implementation of strict discharge limits worldwide, industries must stay ahead by adopting efficient and sustainable wastewater treatment strategies.
The training will delve into the complexities of wastewater treatment, addressing biological, chemical, and physical treatment processes tailored for diverse industrial needs. It will also explore key wastewater regulations such as the USA Clean Water Act, effluent guidelines, and permitting requirements. As industries grapple with the challenges of industrial wastewater disposal, this program will empower participants with the knowledge to navigate legal obligations while integrating innovative solutions for water conservation and reuse.
Key highlights of this comprehensive training include:
Advanced treatment technologies – A detailed exploration of biological, chemical, and physical wastewater treatment methods tailored to different industrial applications.
Regulatory compliance and industry standards – In-depth analysis of global environmental laws, effluent quality standards, and permitting processes.
Process optimization techniques – Strategies to enhance operational efficiency, reduce energy consumption, and lower treatment costs.
Wastewater recycling and reuse strategies – Methods for implementing sustainable water management solutions to support conservation efforts.
Environmental impact assessment – Approaches to evaluating and mitigating the environmental risks associated with wastewater discharge.
Challenges in industrial wastewater management – Identification of common issues and exploration of modern, sustainable solutions for various industries.
As industries transition toward a more sustainable future, professionals equipped with wastewater treatment expertise will play a pivotal role in ensuring environmental protection and resource conservation. Pideya Learning Academy’s Advanced Wastewater Treatment Techniques training empowers participants to develop cost-effective solutions that balance industrial growth with ecological responsibility. By mastering cutting-edge wastewater management strategies, professionals can contribute to a cleaner, safer, and more sustainable world.

Key Takeaways:

  • Advanced treatment technologies – A detailed exploration of biological, chemical, and physical wastewater treatment methods tailored to different industrial applications.
  • Regulatory compliance and industry standards – In-depth analysis of global environmental laws, effluent quality standards, and permitting processes.
  • Process optimization techniques – Strategies to enhance operational efficiency, reduce energy consumption, and lower treatment costs.
  • Wastewater recycling and reuse strategies – Methods for implementing sustainable water management solutions to support conservation efforts.
  • Environmental impact assessment – Approaches to evaluating and mitigating the environmental risks associated with wastewater discharge.
  • Challenges in industrial wastewater management – Identification of common issues and exploration of modern, sustainable solutions for various industries.
  • Advanced treatment technologies – A detailed exploration of biological, chemical, and physical wastewater treatment methods tailored to different industrial applications.
  • Regulatory compliance and industry standards – In-depth analysis of global environmental laws, effluent quality standards, and permitting processes.
  • Process optimization techniques – Strategies to enhance operational efficiency, reduce energy consumption, and lower treatment costs.
  • Wastewater recycling and reuse strategies – Methods for implementing sustainable water management solutions to support conservation efforts.
  • Environmental impact assessment – Approaches to evaluating and mitigating the environmental risks associated with wastewater discharge.
  • Challenges in industrial wastewater management – Identification of common issues and exploration of modern, sustainable solutions for various industries.

Course Objectives

After completing this Pideya Learning Academy training, the participants will learn:
The fundamentals of wastewater treatment and the importance of proper sewage disposal.
Design principles for modern sewage and industrial wastewater treatment plants.
Strategies for compliance with international environmental regulations and wastewater discharge standards.
Process optimization techniques to enhance the efficiency of wastewater treatment systems.
Effective methods for wastewater recycling, reuse, and resource recovery.
Techniques for monitoring and evaluating treatment system performance.
Risk assessment and mitigation strategies related to wastewater treatment and disposal.
Best practices for minimizing operational costs while ensuring environmental protection.

Personal Benefits

Participants attending this Pideya Learning Academy training will gain:
In-depth knowledge of wastewater treatment processes and regulatory requirements.
A solid foundation in designing and managing sewage and industrial effluent treatment plants.
The ability to assess and implement sustainable wastewater recycling and reuse strategies.
Expertise in optimizing wastewater treatment operations for efficiency and cost reduction.
Career advancement opportunities in the environmental and wastewater management sector.
A deeper understanding of environmental impact assessments and mitigation strategies.

Organisational Benefits

Who Should Attend

This Pideya Learning Academy training is ideal for:
Environmental engineers and wastewater treatment professionals.
Plant managers and facility operators responsible for sewage and industrial wastewater treatment.
Compliance officers and regulatory personnel involved in environmental protection.
Project managers and technical staff working on wastewater treatment projects.
Professionals seeking to enhance their expertise in wastewater recycling and sustainable resource management.
Consultants and researchers specializing in industrial wastewater treatment and environmental sustainability.
By enrolling in this Pideya Learning Academy course, professionals can develop essential skills to ensure the effective treatment and management of wastewater, safeguarding both human health and the environment.

Course Outline

Module 1: Introduction to Industrial Wastewater Treatment
Workshop Overview and Learning Outcomes Wastewater Treatment Regulatory Frameworks Environmental and Compliance Considerations Wastewater Sampling and Analysis Methodologies Introduction to Industrial Effluent Characteristics
Module 2: Wastewater Quality Parameters and Testing Techniques
pH, Dissolved Oxygen (DO), and Temperature Analysis Suspended Solids and Turbidity Assessment Fat, Oil, and Grease (FOG) Measurement Biochemical Oxygen Demand (BOD) and Chemical Oxygen Demand (COD) Testing Total Kjeldahl Nitrogen (TKN) and Ammonia Analysis Phosphorus Forms and Concentration Monitoring Nitrate and Nitrite Detection Residual Chlorine and Disinfection Byproducts Assessment Sampling Protocols for Small and Large-Scale Plants
Module 3: Fundamental Microbiology in Wastewater Treatment
Microbial Communities in Biological Treatment Systems Role of Bacteria in Organic Matter Decomposition Factors Affecting Microbial Activity Pathogenic and Non-Pathogenic Microorganisms in Wastewater Microbial Adaptation in Industrial Wastewater Treatment
Module 4: Pre-Treatment and Primary Treatment Technologies
Flow Equalization and Hydraulic Load Balancing pH Adjustment and Chemical Conditioning Screening and Grit Removal Techniques Primary Sedimentation and Clarification Process Oil-Water Separation in Industrial Effluent Coagulation and Flocculation Principles Sludge Settling and Dewatering Processes
Module 5: Secondary Wastewater Treatment Technologies
Bioreactors and Their Role in Biological Treatment Aeration Techniques and Energy Optimization Activated Sludge Process and Process Control Rotating Biological Contactors and Trickling Filters Fluidized Bed Bioreactors for High-Strength Effluent Septic Tank Operations and Lagoon Stabilization Methods
Module 6: Advanced Biological Nutrient Removal Strategies
Nitrogen Removal Techniques: Nitrification and Denitrification Chemical and Biological Phosphorus Removal Approaches Enhanced Coagulation and Flocculation Processes Membrane Bioreactors for Nutrient Removal Emerging Technologies in Biological Nutrient Management
Module 7: Tertiary and Polishing Treatment Techniques
Advanced Filtration Systems for Effluent Polishing Membrane Technologies in Water Reuse Applications Disinfection Fundamentals: Chlorination and UV Treatment Reverse Osmosis (RO) Mechanisms and Performance Optimization Ion Exchange Principles for Contaminant Removal Emerging Contaminants: Endocrine Disruptors and Pharmaceuticals
Module 8: Advanced Wastewater Treatment and Resource Recovery
Electrocoagulation and Electrochemical Treatment Approaches Peroxide/Ultraviolet (UV) Oxidation Systems Ozonation for Pathogen and Micropollutant Removal Carbon Adsorption for Organic Compound Reduction Thermal Processes in Wastewater Purification
Module 9: Sludge Management and Wastewater Residuals Processing
Aerobic Treatment of Sludge and ATAD Processes Anaerobic Digestion for Biogas Generation Sludge Thickening and Dewatering Strategies Heavy Metals and Hazardous Waste Removal from Sludge Biosolids Treatment for Agricultural and Industrial Use
Module 10: Wastewater Discharge and Environmental Impact Assessment
Effluent Discharge Regulations and Compliance Monitoring Receiving Water Body Impacts and Mitigation Strategies Chlorine and Ammonia Discharge Criteria Industrial Effluent Toxicity and Ecosystem Health Application of Infraguide Best Practices in Wastewater Discharge
Module 11: Industrial Wastewater Treatment System Optimization
Process Control and Performance Monitoring Troubleshooting and Corrective Actions in Treatment Plants Energy Efficiency in Wastewater Processing Digitalization and Automation in Wastewater Management
Module 12: Industrial Wastewater Management and Sustainability Strategies
Life Cycle Assessment of Wastewater Treatment Systems Circular Economy and Resource Recovery from Effluent Zero Liquid Discharge (ZLD) Technologies Water Reuse and Reclamation Strategies Industrial Wastewater Management under ISO 14001 Framework
Module 13: Regulatory Compliance and Documentation in Wastewater Treatment
Introduction to ISO 14001 Environmental Management Systems Integration of ISO 14001 with ISO 9001 for Quality Management Hazardous Waste Regulations and Global Harmonization Needs Documentation and Reporting Best Practices in Industrial Effluent Treatment Risk Management and Emergency Preparedness for Wastewater Operations

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