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Highlights

Highlights


Benefits

  • Special design solutions for bundle and lifting ensure zero harm during installation, even in strict floating condition
  • Specific materials are selected to withstand operating corrosive conditions with sour and acid gas
  • Zero-leakage systems guarantee compressor performance and prevent HSE issues
Features

  • Discharge pressure up to 900 bar from medium to low volume flow (300 to 145,000 m³/h)
  • Referenced use in tilting-pad configuration for large journal bearings and AMB technology
  • Easy maintenance, upgrades for changing process conditions, optional real-time predictive systems to ensure operating stability
Applications

  • Refinery, petrochemical, and fertilizer
  • Onshore and offshore
  • LNG, floating LNG

Overview

Overview

This vertically split compressor design is based on solid expertise in applications across the entire oil and gas industry. It has the flexibility to meet any customer requests in terms of performance, configuration, and train operability optimization—whether it’s driven by a steam turbine, gas turbine or electric motor.

Specification
Discharge pressure
Up to 1000 bar
Inlet flow range
600 to 160,000 m3/h
Max number of phases
Up to 3 phases
Speed (rpm)
Up to 20,000
Configuration
In line, back-to-back, double flow

 

CO2 compression capabilities

Baker Hughes has an extensive portfolio evolved from proven products and more than 50 years of experience in CO2 compression. Our equipment is operating in more than 90 plants, and we have new developments to maximize performance for carbon-capture applications. The typical train arrangement includes a steam turbine or electric motor driving a high-speed barrel compressor through an increasing gearbox or a pump for CO2 compression applications. We can also provide a plug-and-pay solution fully integrated with a multistage pump.

Besides our traditional product portfolio, we have equipment operating at the world's largest CO2 compression station, which can reinject more than 3 million tons per year of CO2 from an Australian LNG plant. In recent years, our Power Density approach has reduced footprint and weight while enhancing efficiency and increasing rotation speed. With new materials and coatings for improved resistance to corrosion and stress corrosion cracking, we can manage any sour or acid gas mixture.

 

Integrated electrically driven package

Our proven compressor technology can be easily integrated to most electric motors in the market. Not only does the electric motor minimize emissions and comply with new regulations, but it's also an efficient choice that's simple to operate, with longer maintenance intervals and significantly lower total cost of ownership. Our in-house services include full system test validation with unique performance testing capabilities for large motor drives up to 100 MW.

We recently developed a fully electric LNG plant with nine 75-MW electric motors guaranteeing the costumer approximately 14 MTPA with a record availability of 99.8%. Focusing on optimized plant availability, we developed, validated, and patented an advanced torsional vibration control system (TVCS) that can avoid machine trip, minimize commissioning and start-up time, and give real-time insight on torsional phenomena. We can provide integrated monitoring and diagnostic architecture to enable around-the-clock, real-time monitoring, advisory and troubleshooting support through our iCenters. We also offer consolidated expertise on grid stability and load-flow analysis for expansion of power systems, and to help optimize existing systems.

BCL Integrated
Our 75 MW eLNG module assembled at Freeport site.

 

In-house bearing technology

Extreme operating conditions make an integrated bearing plus rotor design more and more necessary. We have therefore developed our own line of bearings with optimal oil consumption in high-speed and high-load conditions (up to 120 m/s, 4.0 MPa) drawing on our Lufkin-RMT Ultra technology for journal and thrust bearings. We're investing in testing facilities, partnerships with universities, and using advanced 3D numerical models to validate our bearings performance and predictability. Our in-house manufacturing technologies have the capacity to produce thousands of bearings per year—including tilting pad and fixed geometry journal bearings, thrust bearings, and combined journal-thrust bearings—ensuring a reliable single source for all orders and after-market service needs.

 

BCL MCL Bearing 1

BCL MCL Bearing 2

 




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