ProENG BV delivers reliable engineering solutions for power generation facilities of all types, from conventional thermal power plants to modern renewable energy systems. Our expertise enables clients to achieve maximum efficiency, reliability, and environmental compliance.
Our team has extensive experience in designing and implementing critical power plant infrastructure, including piping systems, cooling facilities, and distribution networks. We utilize advanced modeling techniques and simulation tools to optimize plant performance and minimize downtime.
Tennessee, United States | TENNESSEE VALLEY AUTHORITY
Comprehensive engineering and design services for the John Sevier Combined Cycle Plant, featuring integrated gas turbine and steam cycle systems for maximum thermal efficiency. Our team developed detailed 3D models for complex high-pressure piping networks, heat recovery steam generators, and cooling systems. The project included advanced stress analysis for critical piping components, equipment modeling, and detailed technical documentation, resulting in a state-of-the-art facility that achieves 60% thermal efficiency while reducing emissions by over 40% compared to conventional power plants.
France | EDF Energy
Specialized piping design and engineering services for a major nuclear power plant modernization project, focusing on critical cooling systems and safety enhancements. Our team delivered comprehensive 3D modeling and stress analysis for high-integrity Class 1 nuclear piping systems, ensuring full compliance with ASME Section III codes and international nuclear safety standards. The project involved complex routing within existing structures, requiring precise clash detection and innovative support designs to accommodate thermal expansion while maintaining structural integrity under all operational conditions.
Sweden | Vattenfall AB
Piping design and engineering for an innovative biomass cogeneration facility that produces both electricity and district heating from sustainable wood waste. Our team designed the complete steam distribution network, condensate recovery systems, and heat transfer stations using advanced 3D modeling techniques. The project incorporated cutting-edge emissions control technology, high-efficiency heat exchangers, and a complex fuel handling system capable of processing multiple biomass feedstocks. Our engineering solutions helped achieve overall system efficiency of 85%, significantly higher than traditional single-purpose power generation plants.