Title:
Supervising the Construction of Riyadh’s PP10 Combined Cycle Power Plant:
A Real-World Engineering Model
Article Body:
The PP10 Combined Cycle Power Plant in Riyadh stands as a testament to the scale, complexity, and coordination required in modern power generation projects. As an engineer who directly supervised the execution of this massive infrastructure, I’d like to share an insider’s perspective on how this project evolved from blueprint to reality.
Project Overview
The PP10 power station, located in the heart of Saudi Arabia’s capital, was developed to meet the rising electricity demands of the country. The station operates under the combined cycle model, which significantly increases efficiency by utilizing both gas and steam turbines in a single integrated system.
The project comprises:
10 Gas Turbine Generators (GTGs)
10 Heat Recovery Steam Generators (HRSGs)
5 Steam Turbine Generators (STGs)
Auxiliary systems including water treatment units, control buildings, transformers, and extensive cabling networks
Scope of Supervision
My role involved full-time site supervision, coordination with contractors and suppliers, and ensuring strict adherence to design, safety, and environmental standards. This included:
Reviewing design packages and shop drawings
Approving construction methodologies
Verifying quality control procedures
Leading technical meetings and progress evaluations
Coordinating inspection and testing with third-party agencies
Supervising installation of turbines, HRSGs, BOP systems, and control panels
Supporting the commissioning and synchronization with the national grid
Execution Highlights
1. Site Preparation and Civil Works:
Site mobilization, grading, and foundation works were executed with precision, ensuring stability for heavy rotating equipment and HRSG units.
2. Turbine Installation:
Gas and steam turbines were installed using high-capacity cranes and laser alignment tools, with tolerance levels under 0.1 mm for critical joints.
3. Piping and Electrical Works:
Over 500 km of cables were laid and connected, while pressure-tested steam piping systems were welded and inspected using X-ray and ultrasonic methods.
4. Control Systems and Commissioning:
DCS (Distributed Control System) programming and loop checks were carried out in collaboration with OEMs. Grid synchronization was done after successful performance and reliability tests.
Challenges and Solutions
Large-scale coordination with multiple subcontractors, extreme summer temperatures, and strict operational timelines were among the key challenges. Weekly coordination meetings and real-time issue tracking were instrumental in keeping the project on track.
Legacy and Impact
The PP10 power plant has become a model for efficient power generation across the region. Its success story lies not only in the engineering marvel it represents but also in the collaborative effort of hundreds of dedicated professionals.
As someone who witnessed the transformation of a barren site into a high-tech energy facility, I consider this project a highlight of my engineering career—and an example worth sharing with future engineers and energy professionals.
Presented by Eng. Mohammed Ibrahim
Member of the Arab Engineers Union & Professional Engineering Organizations
Experience Shared – Knowledge Spread.
Experience Shared – Knowledge Spread
🔗 Subscribe: https://www.youtube.com/@consud9033
#PrimaveraP6 #PowerPlantProject #ProjectManagement #EngineeringLeadership #MrCon #ConstructionScheduling #EnergyProjects
Suggested Hashtags for LinkedIn Post Later:
#EngineeringProjects #PowerGeneration #CombinedCycle #PP10 #SaudiEnergy #ProjectExecution #EngineeringLeadership #PrimaveraP6 #ConstructionSupervision
Supervising the Construction of Riyadh’s PP10 Combined Cycle Power Plant:
A Real-World Engineering Model
Article Body:
The PP10 Combined Cycle Power Plant in Riyadh stands as a testament to the scale, complexity, and coordination required in modern power generation projects. As an engineer who directly supervised the execution of this massive infrastructure, I’d like to share an insider’s perspective on how this project evolved from blueprint to reality.
Project Overview
The PP10 power station, located in the heart of Saudi Arabia’s capital, was developed to meet the rising electricity demands of the country. The station operates under the combined cycle model, which significantly increases efficiency by utilizing both gas and steam turbines in a single integrated system.
The project comprises:
10 Gas Turbine Generators (GTGs)
10 Heat Recovery Steam Generators (HRSGs)
5 Steam Turbine Generators (STGs)
Auxiliary systems including water treatment units, control buildings, transformers, and extensive cabling networks
Scope of Supervision
My role involved full-time site supervision, coordination with contractors and suppliers, and ensuring strict adherence to design, safety, and environmental standards. This included:
Reviewing design packages and shop drawings
Approving construction methodologies
Verifying quality control procedures
Leading technical meetings and progress evaluations
Coordinating inspection and testing with third-party agencies
Supervising installation of turbines, HRSGs, BOP systems, and control panels
Supporting the commissioning and synchronization with the national grid
Execution Highlights
1. Site Preparation and Civil Works:
Site mobilization, grading, and foundation works were executed with precision, ensuring stability for heavy rotating equipment and HRSG units.
2. Turbine Installation:
Gas and steam turbines were installed using high-capacity cranes and laser alignment tools, with tolerance levels under 0.1 mm for critical joints.
3. Piping and Electrical Works:
Over 500 km of cables were laid and connected, while pressure-tested steam piping systems were welded and inspected using X-ray and ultrasonic methods.
4. Control Systems and Commissioning:
DCS (Distributed Control System) programming and loop checks were carried out in collaboration with OEMs. Grid synchronization was done after successful performance and reliability tests.
Challenges and Solutions
Large-scale coordination with multiple subcontractors, extreme summer temperatures, and strict operational timelines were among the key challenges. Weekly coordination meetings and real-time issue tracking were instrumental in keeping the project on track.
Legacy and Impact
The PP10 power plant has become a model for efficient power generation across the region. Its success story lies not only in the engineering marvel it represents but also in the collaborative effort of hundreds of dedicated professionals.
As someone who witnessed the transformation of a barren site into a high-tech energy facility, I consider this project a highlight of my engineering career—and an example worth sharing with future engineers and energy professionals.
Presented by Eng. Mohammed Ibrahim
Member of the Arab Engineers Union & Professional Engineering Organizations
Experience Shared – Knowledge Spread.
Experience Shared – Knowledge Spread
🔗 Subscribe: https://www.youtube.com/@consud9033
#PrimaveraP6 #PowerPlantProject #ProjectManagement #EngineeringLeadership #MrCon #ConstructionScheduling #EnergyProjects
Suggested Hashtags for LinkedIn Post Later:
#EngineeringProjects #PowerGeneration #CombinedCycle #PP10 #SaudiEnergy #ProjectExecution #EngineeringLeadership #PrimaveraP6 #ConstructionSupervision
YouTube
Mr.Con.- Engineering Knowledge
Mr.Con – Engineering Knowledge
On this channel, you'll find:
– Renewable Energy Systems (Solar, Wind, Hydro, Green Energy)
– Power Plant Operations & Technologies
– MEP & HVAC Concepts
– Engineering Project Execution
– Real-life Case Studies and Failures…
On this channel, you'll find:
– Renewable Energy Systems (Solar, Wind, Hydro, Green Energy)
– Power Plant Operations & Technologies
– MEP & HVAC Concepts
– Engineering Project Execution
– Real-life Case Studies and Failures…
📌 Title: How I Supervised the Execution of a Combined Cycle Power Plant in Riyadh
By [Eng.M Ibrahim] – Project General Manager | Energy Sector Specialist | Power Plants Expert
Over the course of my 30+ years in engineering and industrial project management, one of the most technically complex and professionally rewarding experiences was supervising the execution of the Riyadh Power Plant 10 (PP10) — a large-scale Combined Cycle Power Plant project in the Kingdom of Saudi Arabia.
This landmark project required the integration of gas turbines, heat recovery steam generators (HRSGs), and steam turbines to achieve both operational efficiency and environmental compliance. As the Project General Manager, my responsibilities covered:
✅ Coordinating multidisciplinary teams and contractors
✅ Monitoring execution phases using Primavera P6 for scheduling and control
✅ Overseeing site installation, mechanical completion, commissioning, and startup
✅ Ensuring EHS compliance and ISO-certified quality systems
✅ Managing interfaces between civil, mechanical, electrical, and control systems
✅ Handling supply chain and vendor integration under tight deadlines
I was deeply involved in each step — from site preparation and piling, to boiler commissioning, steam turbine synchronization, and final grid integration.
🔍 Key Takeaways from the Project:
Planning is everything: Using Primavera P6, I created a fully integrated baseline schedule across over 600 activities.
Commissioning is critical: The safe heating and cooling of boilers and steam systems required precision and coordination.
People matter: Leading diverse teams across multiple disciplines taught me that engineering is 50% technical, 50% human.
🏗️ Impact:
PP10 now delivers 3,000+ MW of reliable energy to the central region of Saudi Arabia. It stands as a testament to teamwork, leadership, and technical excellence.
If you're working in the power sector or managing industrial mega-projects, I’d love to connect and exchange ideas.
📩 Feel free to reach out or comment below.
Presented by Eng. Mohammed Ibrahim
Member of the Arab Engineers Union & Professional Engineering Organizations
Experience Shared – Knowledge Spread.
Experience Shared – Knowledge Spread
🔗 Subscribe: https://www.youtube.com/@consud9033
#PrimaveraP6 #PowerPlantProject #ProjectManagement #EngineeringLeadership #MrCon #ConstructionScheduling #EnergyProjects
#PowerGeneration #CombinedCycle #ProjectManagement #EngineeringLeadership #PrimaveraP6 #SaudiProjects #EnergyTransition #MrCon
By [Eng.M Ibrahim] – Project General Manager | Energy Sector Specialist | Power Plants Expert
Over the course of my 30+ years in engineering and industrial project management, one of the most technically complex and professionally rewarding experiences was supervising the execution of the Riyadh Power Plant 10 (PP10) — a large-scale Combined Cycle Power Plant project in the Kingdom of Saudi Arabia.
This landmark project required the integration of gas turbines, heat recovery steam generators (HRSGs), and steam turbines to achieve both operational efficiency and environmental compliance. As the Project General Manager, my responsibilities covered:
✅ Coordinating multidisciplinary teams and contractors
✅ Monitoring execution phases using Primavera P6 for scheduling and control
✅ Overseeing site installation, mechanical completion, commissioning, and startup
✅ Ensuring EHS compliance and ISO-certified quality systems
✅ Managing interfaces between civil, mechanical, electrical, and control systems
✅ Handling supply chain and vendor integration under tight deadlines
I was deeply involved in each step — from site preparation and piling, to boiler commissioning, steam turbine synchronization, and final grid integration.
🔍 Key Takeaways from the Project:
Planning is everything: Using Primavera P6, I created a fully integrated baseline schedule across over 600 activities.
Commissioning is critical: The safe heating and cooling of boilers and steam systems required precision and coordination.
People matter: Leading diverse teams across multiple disciplines taught me that engineering is 50% technical, 50% human.
🏗️ Impact:
PP10 now delivers 3,000+ MW of reliable energy to the central region of Saudi Arabia. It stands as a testament to teamwork, leadership, and technical excellence.
If you're working in the power sector or managing industrial mega-projects, I’d love to connect and exchange ideas.
📩 Feel free to reach out or comment below.
Presented by Eng. Mohammed Ibrahim
Member of the Arab Engineers Union & Professional Engineering Organizations
Experience Shared – Knowledge Spread.
Experience Shared – Knowledge Spread
🔗 Subscribe: https://www.youtube.com/@consud9033
#PrimaveraP6 #PowerPlantProject #ProjectManagement #EngineeringLeadership #MrCon #ConstructionScheduling #EnergyProjects
#PowerGeneration #CombinedCycle #ProjectManagement #EngineeringLeadership #PrimaveraP6 #SaudiProjects #EnergyTransition #MrCon
YouTube
Mr.Con.- Engineering Knowledge
Mr.Con – Engineering Knowledge
On this channel, you'll find:
– Renewable Energy Systems (Solar, Wind, Hydro, Green Energy)
– Power Plant Operations & Technologies
– MEP & HVAC Concepts
– Engineering Project Execution
– Real-life Case Studies and Failures…
On this channel, you'll find:
– Renewable Energy Systems (Solar, Wind, Hydro, Green Energy)
– Power Plant Operations & Technologies
– MEP & HVAC Concepts
– Engineering Project Execution
– Real-life Case Studies and Failures…