- 36.8% efficiency in mechanical drive; up to 84% thermal efficiency in combined heat and power
- Flexible operation to 50% of rated speed; ideal in mechanical drive—can start with fully pressurized compressor
- Lower maintenance costs and 35,000 hours MTBM—automapping eliminates seasonal DLN tuning and intermediate boroscopic inspections
- Rugged, high-performance axial flow compressor
- Single-row annular combustion system for best-in-class low emissions and wide fuel flexibility
- Highest efficiency over the entire power range thanks to variable-geometry, low-pressure turbine nozzle technology
- Onshore and offshore
- Pipeline, gas storage
- Industrial, and combined head and power
NovaLT™12 draws on our latest innovations combined with the best proven technologies and fleet experience from our entire gas turbine portfolio.
At ISO conditions with natural gas fuel, ambient temperature 15ºC, no inlet or exhaust losses, sea level, 60% relative humidity. Package dimensions exclude driven equipment.
Power generation (50/60 Hz)
At ISO conditions with natural gas fuel, ambient temperature 15ºC, no inlet or exhaust losses, sea level, 60% relative humidity. Package dimensions include driven equipment.
The best from two worlds
NovaLT™12 blends the robustness of our frame technologies with the modular maintenance capabilities of our aeroderivatives.
Evolved from our Frame 5/2E design, the NovaL™T12 has one stage added (from 11 to 12) for improved efficiency and a higher pressure ratio (from 17:1 to 19:1).
Extended maintenance plan
The NovaLT™12 is designed for up to 35,000 hours mean time between maintenance (MTBM) without boroscope inspections, and targeting 24-hour engine swap. Real-time condition monitoring anticipates and helps prevent problems. If problems do occur, 24/7 product support service is available.
Thanks to automapping, DLN tuning is required and performed only during commissioning (which is 90% faster than for a traditional system), and every four years thereafter via remote connection with our RM&D Centers.
Hydrogen for energy transition
NovaLT™12 turbines can burn up to 30% hydrogen in dry low emission (DLN) mode, and we’re moving toward 100% H2 capability.