Course Methodology
The course uses interactive techniques such as presentations by the consultant and participants. It also features group work, industry case studies, and group discussions.
Course Objectives
By the end of the course, participants will be able to:
- Recognize the gravity of the issue through an understanding of gas-flaring dynamics
- Examine the design considerations of the flare gas recovery system
- Analyze the utilization options for the recovered gas
- Examine the decision drivers for flare gas recovery
- Scrutinize the different flare gas recovery technologies
Target Audience
Oil and Gas Production Managers, Plant Managers, Project Managers, Planning Managers, Operations and Maintenance Engineers, Business Development Managers, Enterprise Risk Managers, Contractors, and Regulators who are responsible for enforcing policies about a clean environment.
Target Competencies
- Monetizing energy
- Developing green initiatives
- Identifying hazards
- Designing
- Mitigating risks
- Optimizing
Gas flaring dynamics
- The associated gas challenge
- Environmental concerns and policies concerning global warming
- Flare pollutants’ health effects
- Size of the problem
- Flaring in the oil and gas industry value chain
- Gas flaring in perspective
- Flaring and venting
Design considerations of Flare Gas Recovery (FGR) system
- Typical flows to the flare system
- FGR system capabilities
- Flare types
- FGR system components
- Flare gas compressor system
- Ejector/educator system
Flare gas utilization options
- Flare gas reduction and monetization
- Gas-to-energy
- Gas-to-power
- Gas-to-liquid
- Gas-to-chemical
- Re-injection
Flare gas recovery key decision drivers
- Footprint and technical complexity
- Maturity of technology
- Revenue/product uplift
- Global gas flare reduction partnership
- Flare gas recovery systems industry overview
Flare gas recovery technologies
- Small-scale technologies
- Mini gas to liquid technology
- Sulphur recovery unit process
- Ejector technology
- Flare gas sweetening
