Deep-dive into combined cycle gas turbine (CCGT) plant operations covering gas turbine and steam turbine integration, heat recovery steam generators (HRSG), and performance optimisation techniques.
Choose Format
About this programme
Deep-dive into combined cycle gas turbine (CCGT) plant operations covering gas turbine and steam turbine integration, heat recovery steam generators (HRSG), and performance optimisation techniques.
Equip professionals with the knowledge, skills, and frameworks required to excel in Combined Cycle Power Plant - Operations & Optimisation, driving measurable improvement in Power Generation & Utilities performance and delivering tangible value to their organisations.
10 key learning outcomes
Understand power plant technologies — gas turbines, steam turbines, combined cycle, and nuclear — and their performance
Apply thermodynamic principles to evaluate power generation efficiency and cycle optimisation
Design and evaluate electrical systems for power generation and transmission including protection and control
Apply smart grid technologies, metering systems, and power quality analytics to utility networks
Evaluate renewable energy integration: solar, wind, and battery storage in utility-scale applications
Apply power system protection philosophy, relay coordination, and fault analysis to HV and MV networks
Understand the regulatory and commercial framework for power markets, wheeling, and capacity contracts
Assess operations and maintenance requirements for key power plant equipment and utility systems
Apply energy efficiency assessment and demand-side management to reduce power sector emissions
Evaluate the decarbonisation pathway for power generation including hydrogen co-firing and CCS
5 training days · 15 modules · hands-on workshops
Understand the thermodynamic cycles and equipment used in modern power generation.
Thermal efficiency analysis: teams calculate and compare the thermal efficiency of three provided power plant configurations and identify opportunities for improvement.
Apply power systems knowledge to the design and operation of transmission and distribution networks.
Protection coordination study: teams calculate and grade overcurrent relay settings for a provided radial MV feeder from source back to load, checking grading margins.
Apply smart grid technologies, AMI systems, and power analytics to utility operations.
Smart grid analytics: teams analyse a provided AMI dataset for a distribution network to identify non-technical losses, high consumers, and power quality issues.
Evaluate the integration of renewable energy and storage systems into utility networks.
Renewable integration study: teams assess the impact of adding 100 MW of solar PV to a provided distribution network, identifying voltage and thermal issues and recommending mitigations.
Understand power markets, asset maintenance, and the power sector's decarbonisation pathway.
Capstone power plant performance review: teams conduct a comprehensive performance and reliability review for a provided CCGT plant, identifying efficiency losses, maintenance improvements, and a decarbonisation roadmap.
This programme is designed for professionals across these roles
Technical staff responsible for power plant operations, efficiency, and maintenance performance
Engineers designing, commissioning, and maintaining power transmission and distribution systems
Managers responsible for power system assets, regulatory compliance, and commercial performance
Engineers integrating solar, wind, and storage into utility networks and industrial microgrids
AMI, smart grid, and cybersecurity teams managing advanced utility infrastructure
Early-career engineers building a rigorous technical foundation in power generation and utilities
Upcoming public dates — enrol anytime
This course carries internationally recognised professional credits
Request documentation before you book
Speak with our training advisors to confirm availability, group rates, and customised in-house options.