FT4000® SWIFTPAC® Gas Turbine Package
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The FT4000® SWIFTPAC® unit is the world's largest-capacity aero-derivative gas turbine power supply package. The unit performs with a simple-cycle efficiency of 41% or higher and rated outputs of 70 to 140 MW. The package has an optimal modular design, based on proven features of the FT8® packages, that decreases site installation work.
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- Features
- Arrangement
- Solution
- BATTPAC™ Hybrid solution
- Enables a start-up time of less than 5 minutes from cold start with outstanding system stability and a load change rate of 50% per minute
- High-performance, diversified operability based on the properties of independent-output turbines (free turbines)
- Reduced O&M cost and cost of ownership
- Quick engine change out affords high unit availability
| Output | 140 MW (Water Injection, Inlet Air Cooling) |
|---|---|
| Fuel | Dual Fuel (Gas/Oil) |
| Starting Time | <5 minutes (cold to full load) |
| Cooling Method | Air Cooling |
| Foundation | Flat (non-pit) |
| Power Cable Connection | Quick-disconnect Cable |
- A system (FT4000®SWIFTPAC® 140) with two gas turbines in twin configuration driving one generator helps reduce the construction unit cost and installation area per output.
- Individual smaller HRSG/SCR recommended for each engine.
- The free turbine construction of the power turbine (PT) eliminates the need for reduction gears and helps reduce the capacity of the lubricating oil equipment while improving performance.
- No clutch is needed during synchronous condensing operation (control of systme voltage by monitoring).
Aero-derivative Gas Turbine (GT) + Energy Storage System (ESS) + Energy Management System (EMS)
Expanded introduction of renewable energy and enhanced CO2 reduction features for rapid entry into the new electric power market!
BATTPACTM Features
- 1. Support for wide-ranging functions, from system stabilization analysis to component selection and capacity/system determination.
- 2. Centralized, single-party responsibility through the collective arrangement of major components from our company (GT, ESS, EMS, etc.).
- 3. An optimal system reflecting actual experience in operating “renewable energy + ESS” units.
| System | Only GT | Only ESS | GT + ESS |
|---|---|---|---|
| 1. CAPEX | Base | Expensive | A little expensive |
| 2. OPEX | Base | Inexpensive | Inexpensive |
| 3. Standby fuel | Yes (during constant parallel-in) | No | No |
| 4. CO2 credit | No | Yes | Yes |
| 5. Instantaneous power generation | Possible (during constant parallel-in) | Possible | Possible |
| 6. Response speed | Base | Rapid | Rapid |
| 7. Correspondence to surplus electricity of renewable energy | Not possible | Possible (charging) | Possible (charging) |
| 8. D/G for blackout emergency | Necessary | Not necessary | Not necessary |
| 9. Synchronized condensing operation | Possible | Not possible | Possible |
| 10. Long-term continuous operation | Possible | Not possible | Possible |
Aero-Derivative Gas Turbine Services
Mitsubishi Power Aero offers a full range of maintenance, overhaul and repair, and field service for aero-derivative gas turbine engines. We also offer Long Term Service Agreements (LTSA) and Engineering, Procurement, and Construction (EPC) Services.