Course Methodology

This course is highly interactive and includes group discussions, case studies and syndicate work. It includes practical exercises that will allow all participants to use the knowledge they gained to implement their skills in Waste Management.

Course Objectives

By the end of the course, participants will be able to:

• Explain the use of the waste management hierarchy in the sustainable management of waste and its role in the circular economy
• Use the principles of sustainable waste management in a Middle East context
• Identify opportunities in waste prevention for cost-efficient waste management
• Explore re-use and recycling opportunities in waste management, and manage waste-related environmental risks through a risk-based approach
• Use principles of waste recovery to explore opportunities for energy generation through anaerobic digestion and energy from waste incineration
• Examine the potential impacts of waste disposal to land (landfill) and identify more sustainable alternatives where appropriate

Target Audience

This course is designed for waste managers and supervisors in all waste-producing industries (e.g. including construction, manufacturing and retail.) It is also ideal for municipal waste managers, waste planners (private and public sector) and anyone who wishes to explore opportunities in the management of waste in the 21st century.

Target Competencies

• Waste prevention
• Sustainable waste management
• Waste recycling
• Waste recovery
• Waste disposal

Sustainable waste management: an international context

• Waste management policy for the 21st Century
• Principles of sustainable waste management
• Sustainable waste management and the circular economy
• Sustainable waste management: A Middle East perspective
• Environmental risks and their management and control
• Pollution linkages and their use in managing environmental risks
• Good practice in municipal waste management
• Sustainable options for different waste types

Waste prevention

• Commercial ‘drivers’ and good practice examples
• The true cost of waste
• Use of simple tools
• Flow diagrams
• Scope to save
• Process mapping
• Mass balance
• SMART objectives
• Cause and effect diagrams
• Decision matrices

Waste re-use and recycling

• The value of waste as resources
• The role of Materials Recovery Facilities (MRFs)
• ‘Clean’ MRFs and ‘Dirty’ MRFs: How they work
• The role of transfer stations
• The science of composting
• Good practice in open windrow composting
• Good practice in ‘In-Vessel Composting’ (IVC)
• IVC for food waste

Waste recovery

• Anaerobic Digestion (AD): an old science with new opportunities
• The science of AD: summary
• AD of food waste
• AD for energy generation
• Good practice in the management of food waste
• Waste incineration with energy recovery
• Good practice in Energy from Waste Incineration (EfW)
• EfW for municipal waste

Waste disposal on land

• Landfill: Hazards and risks
• Principles of sustainable landfill
• Landfill: Engineering considerations
• Regional (including climate and geological) influences on good practice
• Co-disposal landfill
• Long-term storage of waste
• Waste management in 2050
• Predicting the future: potential commercial opportunities in waste management
• Course summary