The power grid is facing challenges due to increased spark spread and a rise in demand for energy. Providers are experiencing longer lead times for their forgotten and damaged assets. With data centers being built, and more on the way, the future of energy is facing pressure.
Operators must choose between scrapping, waiting for parts and components, or buying new. The need for faster turnarounds, advanced repair capabilities and innovative engineered strategies is more important now than ever before. Sulzer provides a solution: breathing new life into your legacy machines. In this webinar, you will discover:
- How the increased growth of digital infrastructure is straining the grid
- What’s driving costly downtime? —and how to overcome long lead times
- How Sulzer’s in-house capabilities in manufacturing, full performance testing and end-to-end solutions reduce downtime and restore performance
- Lifecycle extension strategies to keep mature fleets efficient and grid-ready
- Case studies showing why operators are turning to Sulzer as a trusted partner for sustaining vital infrastructure in a high-demand future
Don’t let lead times or aging equipment hold you back. Reserve your spot today and learn how Sulzer can optimize your runtime for longer.
Key Learning Objectives
- Understand the Market Pressures Driving Asset Rejuvenation: Identify how spark spread, low reserve margins, and unpredictable digital infrastructure loads (data centers, AI, Bitcoin mining) are straining global power grids.
- Recognize the Limitations of New-Build Gas Turbines: Explain why OEM production constraints and 2030+ delivery timelines make refurbishment and lifecycle extension a critical strategy for operators.
- Evaluate the Potential of Stranded or Underutilized Assets: Learn how to assess existing gas turbines for performance, emissions compliance, and viability for refurbishment to extend service life.
- Apply Sulzer’s Proven Lifecycle Extension Solutions: Discover how in-house manufacturing, advanced coatings, full performance testing, and aeroderivative-specific services can restore grid reliability quickly and cost-effectively.
