Paralleling generators are becoming an increasingly popular way to provide redundancy, scalability, and efficiency for a variety of applications. From hospitals and large commercial facilities to remote industrial sites, these powerful pieces of equipment offer increased flexibility, allowing multiple generators to be connected together in a single system. Here’s what you need to know about paralleling generators and how they work.
Paralleling generators feature two or more separately operated units that run in tandem to produce the desired amount of power. Generators can be connected together by synchronizing their frequency and voltage output, or by using a static switch that ensures each generator stays within its own operating range. One generator serves as the primary source of power while the others pick up the slack if the primary fails. This helps ensure continuity of service and eliminates any downtime.
The benefits of a paralleling generator system are obvious — it provides an additional layer of security against blackouts and other emergencies, eliminating costly repairs and lost productivity due to power failure. Additionally, paralleling generators can be used to spread the load among several machines, increasing the overall lifespan of the generators and reducing wear and tear on the equipment. In addition, it can help reduce operating costs since only one generator needs to be running at any given time to maintain power.