The Carbon Capture, Utilization, and Storage (CCUS) Strategies course in Cairo equips professionals with the knowledge to develop and implement effective CCUS solutions for sustainability.
From:
28-09-2026
Course Overview
As the global energy sector transitions to a low-carbon future, CCUS technologies play a critical role in reducing emissions and meeting sustainability targets. This Carbon Capture, Utilization, and Storage (CCUS) Strategies Training Course introduces participants to the science, technology, and policy frameworks driving CCUS adoption.
Participants will explore capture methods, utilization pathways, storage technologies, and regulatory challenges. Through global case studies and practical exercises, they will analyze how CCUS projects are implemented to balance economic feasibility with environmental impact.
By the end of the course, attendees will be able to apply CCUS strategies to support corporate sustainability initiatives and national climate commitments.
Course Benefits
Understand CCUS technologies and applications
Analyze carbon capture methods for different industries
Explore utilization pathways for captured CO₂
Evaluate storage options and long-term safety
Align CCUS projects with global climate goals
Course Objectives
Define principles and drivers of CCUS strategies
Assess technologies for carbon capture, utilization, and storage
Evaluate economic and technical feasibility of CCUS projects
Explore integration of CCUS in oil, gas, and industrial sectors
Address policy, regulatory, and governance frameworks
Examine global case studies of CCUS implementation
Build strategies for sustainable low-carbon transitions
Training Methodology
This course combines lectures, industry case studies, group discussions, and practical exercises. Participants will explore real-world CCUS projects and design frameworks for their organizations.
Target Audience
Energy and sustainability professionals
Oil, gas, and industrial sector managers
Policy-makers and regulators
Environmental and climate change specialists
Target Competencies
CCUS technology applications
Emissions reduction strategies
Policy and governance in carbon management
Sustainable energy transition planning
Course Outline
Unit 1: Introduction to CCUS and Climate Context
Role of CCUS in climate change mitigation
Global energy transition drivers
Current CCUS landscape and trends
Case studies of early CCUS adoption
Unit 2: Carbon Capture Technologies
Pre-combustion, post-combustion, and oxyfuel capture methods
Advances in capture materials and solvents
Industrial applications of carbon capture
Hands-on capture technology exercise
Unit 3: Carbon Utilization Pathways
CO₂ use in enhanced oil recovery (EOR)
Chemical and material conversion of CO₂
Emerging utilization innovations (fuels, building materials)
Case studies of utilization projects
Unit 4: Carbon Storage and Risk Management
Geological storage options (saline aquifers, depleted reservoirs)
Monitoring and verification of stored CO₂
Risk and safety management in storage operations
Real-world storage project analysis
Unit 5: Policy, Economics, and Future of CCUS
Policy frameworks and regulatory considerations
Economics of CCUS projects and financing models
Public perception and stakeholder engagement
Future directions in global CCUS deployment
Ready to advance your expertise in CCUS?
Join the Carbon Capture, Utilization, and Storage (CCUS) Strategies Training Course with EuroQuest International Training and lead the transition toward a low-carbon future.
The Carbon Capture, Utilization, and Storage (CCUS) Strategies Training Courses in Cairo provide professionals with a comprehensive understanding of the technologies, planning frameworks, and operational approaches needed to reduce carbon emissions and support sustainable energy practices. Designed for engineers, environmental specialists, sustainability officers, policy planners, project managers, and energy sector leaders, these programs focus on developing practical competencies in designing, evaluating, and implementing CCUS initiatives across industrial operations.
Participants explore the core principles of carbon capture technologies, including post-combustion, pre-combustion, and oxy-fuel capture systems, as well as emerging approaches used in industrial and power generation environments. The courses emphasize how captured carbon can be transported, stored, or repurposed in value-creating applications such as enhanced recovery, chemical production, and material manufacturing. Through case-based learning, scenario modeling, and guided project exercises, attendees learn to assess site suitability, evaluate storage reservoir integrity, analyze capture system performance, and develop monitoring frameworks to ensure safe and reliable operations.
These CCUS strategy training programs in Cairo also highlight the strategic role of carbon management in supporting organizational sustainability, operational efficiency, and long-term energy transition planning. Participants gain practical insights into cost assessment, project feasibility analysis, stakeholder engagement, and the integration of CCUS with renewable technologies and decarbonization initiatives. The curriculum addresses systems thinking and multidisciplinary coordination to ensure alignment with business objectives and environmental priorities.
Attending these training courses in Cairo provides professionals with a collaborative learning environment supported by expert practitioners and industry peers. The city’s expanding focus on climate innovation, energy diversification, and sustainable development makes it an ideal setting for exploring CCUS applications in real-world contexts.
By completing this specialization, participants will be equipped to contribute to the design and implementation of CCUS strategies that reduce carbon footprints, support energy system resilience, and advance environmental sustainability in a rapidly evolving global energy landscape.