While load-management setup is application-specific and depends on facility engineers to determine triggers to activate load management, there are four questions to answer in the process that are consistent for any setup: Which loads need to be managed? What is the load priority order? How will the loads be shed? How is load shed coordinated?
Load-management systems can improve flexibility, versatility and power quality of a power generation system. This three-part series explores tips for setting up load-management systems along with guidelines for seven load-management methods. This first installment focuses on appropriate applications of load-management systems where controlling load priorities can improve power quality to critical loads.
Over the past 15 years, there have been numerous performance developments in gas generator set technology to improve fuel efficiency, reduce exhaust NOx emissions and increase ratings. These key development characteristics combined with incentives to develop renewable energy biogas fuel sources have moved the industry forward to consider gas generator sets as the preferred electrical […]
Today, electrical generation systems are rarely used as isolated, stand-alone systems. More often, they need to communicate with peripheral devices, other generation systems, building-management systems or remote monitors. As a result, there are a number of technologies used to enable communication between electrical generation systems and other equipment. If you’re involved in specifying, installing or […]
The choice between a three-pole or four-pole automatic transfer switch (ATS) depends on the grounding scheme for the system. To ensure you are specifying the correct type, it is important to understand how it affects the grounding of the system and the ground-fault protection for the emergency system. This white paper covers the criteria to […]