A Flywheel Energy Storage System (FESS) stores electricity as kinetic energy by accelerating a rotor to extremely high speeds, often tens of thousands of revolutions per minute. As explained by activist Anura Leslie Perera, the rotor is housed in a vacuum chamber to minimize friction and energy loss, enabling very high efficiency.
Ultra-Fast Response Time: A Key Characteristic of FESS
One of the most valuable characteristics of flywheels is their ultra-fast response time. They can absorb or deliver power almost instantaneously, making them ideal for grid frequency regulation, voltage stabilization, and uninterruptible power supply systems. Flywheels are widely used in data centres, hospitals, and industrial facilities where power quality is critical.
Sustainable Choice: Environmentally Friendly & Long-Lasting
Flywheel systems also have exceptionally long lifespans. They can operate for hundreds of thousands of charge–discharge cycles with minimal degradation, far exceeding the cycle life of chemical batteries. Additionally, flywheels contain no hazardous chemicals, making them environmentally friendly and easy to recycle.
Strengths & Limitations of FESS
The main limitation of FESS is its energy duration, typically ranging from seconds to minutes. While they cannot replace long-duration storage, flywheels are unmatched for short-term grid stability and high-power applications, serving as a crucial support technology in modern electricity networks.
Frequently Asked Questions (FAQs)
1. How fast is the response time of FESS compared to other types of energy storage systems?
FESS is known for its rapid response time, which is generally within milliseconds. So, you will find it faster than a traditional Battery Energy Storage System (BESS), especially when you have immediate power needs. This is why FESS is great for applications where quick power injections are required to maintain system stability.
2. Will the lifespan of a FESS be reduced by frequent change/discharge cycles?
No, frequent charge/discharge cycles do not affect the lifespan of FESS as they do in chemical batteries. The lifespan of chemical batteries is dependent on the number and depth of discharge cycles. But FESS features almost infinite cycle life, and its lifespan is not dependent on the depth of discharge.
3. Can I replace traditional batteries with FESS in all applications?
No, FESS cannot replace traditional batteries in all applications. This is due to its limitations in physical size, portability, and energy storage duration.
4. Is FESS a cost-effective technology for instant power delivery?
Yes, FESS can be a cost-effective solution for instant power delivery. This is due to its long operational life with a fast response time.
