Highlights
Highlights
Benefits
- Can be tested with steam at Baker Hughes factory before delivery
- Engineered to achieve the highest plant availability and reliability with an optimized maintenance plan
- Various value-added services (conversions, modifications, upgrades, repairs) to improve maintainability and operating cost
Features
- Condensing and back-pressure, multiple extractions/injections for process needs, multiple bleedings for higher cycle efficiency
- Single, back-to-back, double-flow thermodynamic configs for non-reheat and reheat cycles; axial/radial exhaust, baseplate or concrete-mounted
- Fast start-up and stress-based rotor control capability optimize performance for daily starts, peaking operation, etc.
Applications
- Geared or direct mechanical energy / mechanical drive coupling with electric generator; onshore and offshore installations
- Oil and gas API: downstream, midstream, upstream, power generation
- Industrial: combined cycles including heat and power plant, biomass, waste-to-energy, geothermal, thermal solar, captive
Overview
Overview
Our steam turbines are complete high-efficiency solutions for industrial processes and oil and gas power output applications—responding to energy demand with best-in-class plant efficiency and low total cost of ownership.
Specifications
Power range
2-170 MW
Inlet rating options
2,500/1,500
Frequency and generator type
50/60 Hz, 2 poles and 4 poles
Controlled extraction
Internal, up to 2
Bleedings
Multiple externally controlled
Start-up capability
Up to daily
Configuration
In-line, double flow, re-heat back-to-back, or double casing
Exhaust arrangement
Axial or radial
Low vacuum capabilities
Erosion protection control features
Special materials
Available for highly corrosive environments
Renewables for energy transition
Baker Hughes' technologies offer best-in-class efficiency in a wide range of power generation applications, contributing to the reduction of CO2 emissions. We provide advanced solutions for a wide range of renewable industries, complying with the specific requirements of each application: operational flexibility for biomass and waste-to-energy; optimized load ramp-up and daily starts for concentrated solar plants; and corrosion-resistant materials for aggressive or geothermal steam contaminants.
Combined cycles
Combined-cycle plants are under increasing pressure as they need to complement variable wind and solar resources. The flexibility and reliability improvements provided by our technologies will play an important role in maintaining plants' economic viability.
