Synchronous Condenser

Short-term Overload Capability

The GE Vernova Synchronous Condenser has a large current overload capability. which can provide beneficial system support during emergencies or short term contingencies. As can be seen below, a GE Vernova Synchronous Condenser can provide more than two times its rating for up to 10 seconds. The machine’s significant overload capability can be accounted for in choosing the size of the machine required.

Low Voltage Ride Through

The GE Vernova Synchronous Condenser system has the ability to remain connected and to provide the necessary system benefits even under extreme low voltage contingencies. Mechanical inertia combined with state of the art excitation provides smooth reliable support that is naturally compatible with generation. Power electronic-based solutions do not have mechanical inertia and therefore cannot deliver comparable ride-through performance.

Provides System Inertia

Inertia is an inherent feature of a Synchronous Condenser, since it is a rotating machine.  The benefit of this inertia is improved frequency regulation where more renewable generation is being added or where existing generation is being retired.

Response Time

GE Vernova Synchronous Condensers are fast enough to meet dynamic response requirements by using modern excitation and control systems. GE Vernova has integrated today’s advancements in control technologies into a proven machine design to make that solution better than ever.

Short Circuit Contribution

Synchronous Condensers provide real short circuit strength to the grid. Increased short circuit improves system stability with weak interconnections, facilitates system protection and can improve the operation of modern power electronics installations.

Minimal Harmonic Generation

The Synchronous Condenser is not a source of harmonics and can even absorb harmonic currents. The lack of harmonics help make the synchronous condenser friendly to the surrounding grid and other devices. This provides for ease of integration into existing networks.

Minimal Network Interactions

The GE Vernova Synchronous Condenser mitigates system control interaction concern by utilizing traditional and robust electrical components combined with state of the art control architecture that does not cause undesirable interactions with your existing FACTS devices.

Fast Project Cycle Time

The system only requires integration to commonly available power delivery components resulting in accelerated project cycle times. The design, manufacture, installation and commissioning of a Synchronous Condenser system can be completed within 16 months. GE Vernova’s experienced Power Projects team has 99% record of on-time project completion and greater than 98% on-budget execution.

Proven Design and Increased Reliability

The GE Vernova Synchronous Condenser is designed to provide trouble-free, reliable service and is a proven solution with more than 200 applications over nearly a century. Advancements in materials and manufacturing techniques, combined with modern control technologies, have greatly improved the reliability and functionality of this robust, time-tested solution. Operators can now utilize the simplicity of electro-mechanical system combined with the benefits of a state of the art excitation and control system in order to meet their grid support needs.

Minimal Maintenance

The GE Vernova Synchronous Condensers proven design requires minimum maintenance resulting in minimal operating costs and reduced total cost of ownership.

Control Systems & Protection Relays

• Proven controls architecture
• Multilin multi-function digital protection relays
• Secure communications infrastructure
• Human Machine Interface (HMI) operator friendly
• Digital solid state controls

Power Delivery Equipment

• Generator Step Up (GSU) transformer
• HV/MV circuit breakers & switches
• Ancillary systems (lube oil skid)
• Starting reactors
• Instrument transformers (CT/VT)