REF: | 15642_318371 |
DATE: | 30 Nov - 11 Dec 2025 11.Dec.2025 |
LOCATION: |
Amman (Jordan) |
INDIVIDUAL FEE: |
6000 Euro |
Introduction:
Oil-water treatment technology is used in the petroleum industry, where efficient separation of oil and water is essential for environmental compliance and operation. This Oil Water Treatment Technology course delves into the principles, processes, and advanced techniques for treating oil-contaminated water, addressing theoretical foundations and practical applications.
Participants will learn methodologies, chemical treatment, mechanical separation, and emerging technologies like electrocoagulation and membrane filtration. This Oil Water Treatment Technology course equips professionals with the knowledge to implement effective oil-water treatment strategies, ensuring sustainable practices and regulatory adherence within the industry.
Oil Water Treatment Technology is an essential aspect of modern oil technology. It focuses on separating and purifying oil and water in industrial processes. This Oil Water Treatment Technology course provides an understanding of water treatment technology, particularly in handling oil wastewater treatment in refineries and other facilities.
Participants in this Oil Water Treatment Technology training will explore wastewater treatment technology solutions, learn what water treatment technology is, and see how it applies to refining operations. Key topics include the benefits of oil water treatment technology, such as improved efficiency, reduced environmental impact, and enhanced water reuse.
Emphasis is placed on water treatment oil refinery and techniques, ensuring that water treatment for oil is optimized for both environmental and economic gain. Through practical examples, attendees will discover the advantages of water treatment in oil production and how it contributes to overall oil treatment benefits.
Targeted Groups:
- Environmental Engineers and Specialists.
- Oil and Gas Industry Professionals.
- Water Treatment Plant Operators.
- Regulatory Compliance Managers.
- Chemical Engineers.
- Environmental Consultants.
Course Objectives:
At the end of this Oil Water Treatment Technology course, the participants will be able to:
- Understand the fundamental principles of oil-water separation technology.
- Learn various methods and technologies used in oil-water treatment.
- Gain practical knowledge in implementing chemical and mechanical separation processes.
- Explore advanced techniques such as electrocoagulation and membrane filtration.
- Achieve proficiency in optimizing treatment efficiency and environmental compliance.
- Develop skills in troubleshooting and maintaining oil water treatment systems.
- Acquire knowledge of regulatory requirements and best practices in the industry.
- Analyze case studies to apply theoretical knowledge to real-world scenarios.
- Enhance decision-making capabilities for selecting appropriate treatment methods.
- Foster collaboration among multidisciplinary teams involved in water management.
Targeted Competencies:
Participants competencies in this Oil Water Treatment Technology training will:
- Understand Oil-Water Separation Principles.
- Proficiency in Chemical Treatment Techniques.
- Master Mechanical Separation Processes.
- Apply Advanced Filtration Methods.
- Compliance with Environmental Regulations.
- Optimize Treatment Efficiency.
Course Content:
Unit 1: Introduction to Oil Water Treatment:
- Overview of oil-water separation principles.
- Importance of effective water treatment in the petroleum industry.
- Regulatory requirements and environmental implications.
- Historical development and technological advancements.
- Case studies showcasing successful implementations.
- Introduction to key terminology and concepts.
- Discussion on the global impact of untreated oil-contaminated water.
Unit 2: Chemical Treatment Methods:
- Detailed examination of coagulation and flocculation processes.
- Types and roles of chemicals used in treatment.
- pH adjustment and its impact on treatment efficiency.
- Application of polymers and surfactants in emulsion breaking.
- Case studies on the effectiveness of chemical treatments.
- Safety protocols and handling of chemicals.
- Optimization strategies for chemical dosage.
Unit 3: Mechanical Separation Techniques:
- Principles of gravity separation (API separators).
- Centrifugal separation in oil water separators.
- Hydrocyclone technology for enhanced separation.
- Design considerations for mechanical separators.
- Comparison of different separation efficiencies.
- Maintenance and troubleshooting of mechanical systems.
- Integration of mechanical systems into treatment plants.
Unit 4: Advanced Filtration Systems:
- Overview of media filtration (sand, activated carbon).
- Membrane filtration technologies (microfiltration, ultrafiltration).
- Hybrid systems combining filtration and separation.
- Selection criteria for filtration media.
- Energy efficiency considerations in filtration.
- Case studies on the application of advanced filtration.
- Challenges and innovations in filtration technology.
Unit 5: Emerging Technologies:
- Introduction to electrocoagulation and electroflocculation.
- Role of nanotechnology in oil water treatment.
- Ultrasonic and cavitation technologies.
- Advances in biological treatment methods.
- Pilot testing and scalability of emerging technologies.
- Environmental and economic benefits of new technologies.
- Regulatory acceptance and industry adoption of emerging methods.
Unit 6: Monitoring and Control Systems:
- Importance of monitoring water quality parameters.
- Instrumentation for real-time monitoring.
- Control strategies for optimizing treatment processes.
- Automated systems and remote monitoring.
- Data management and analysis for process improvement.
- Case studies on the use of monitoring systems.
- Integration of tracking into operational protocols.
Unit 7: Regulatory Compliance and Standards:
- Overview of local and international regulations.
- Compliance requirements for discharge limits.
- Permitting processes and regulatory agencies.
- Best practices for meeting regulatory standards.
- Environmental risk assessment and mitigation.
- Reporting and documentation requirements.
- Continuous improvement strategies in compliance.
Unit 8: Case Studies in Oil Water Treatment:
- Analysis of successful oil water treatment projects.
- Case studies from different sectors (offshore, onshore, refineries).
- Lessons learned and challenges faced in real-world applications.
- Comparative analysis of treatment technologies.
- Impact of case studies on industry practices.
- Discussion on sustainability and long-term performance.
- Guest lectures from industry experts on specific case examples.
Unit 9: Maintenance and Troubleshooting:
- Importance of preventive maintenance in treatment systems.
- Common issues in oil water treatment and troubleshooting techniques.
- Risk assessment and mitigation strategies.
- Equipment inspection and calibration procedures.
- Emergency response planning for treatment failures.
- Train programs for maintenance personnel.
- Case studies on the cost-effectiveness of maintenance practices.
Unit 10: Future Trends and Innovations:
- Predictions for the future of oil water treatment technologies.
- Innovations in materials and design of treatment systems.
- Role of artificial intelligence and machine learning in water management.
- Sustainable practices in oil water treatment.
- Collaboration with academia and research institutions.
- Market trends and investment opportunities.
- Ethical considerations in adopting new technologies.