Modernization Solutions for Medium-Voltage Switchgear
Modernization solutions present a viable alternative to purchasing new equipment. With careful consideration and proper implementation of the points covered in this paper, you can maximize the life and reliability of your medium-voltage switchgear.
Do You Have Concerns About Aging Equipment?
Start exploring 'My Solutions Map' to get on track for cost-effective modernization solutions with minimal downtime!
3D Modeling Tool: Switchgear Modernization Solutions
This interactive tool enables users to look inside switchgear and learn about the features and benefits of our low-voltage direct replacement solution.
White Paper: Switchgear Survival Guide - Ten Tips to Optimize Switchgear and Enhance Reliability
With increasing dependence on computers and automated processes, most modern facilities cannot afford downtime. Performing proper maintenance on a facility’s electrical equipment can reduce the risk of an unplanned outage and help extend useful life of the asset. In today’s economy, budget constraints on capital improvement projects will mean more reliance on existing equipment maintenance.
White Paper: Enhancing Reliability of Legacy Systems with New Generation Low-Voltage Circuit Breaker Upgrades
Even the best maintained equipment is subject to two key phenomena: (1) Equipment ultimately degrades and reaches the end of its useful life, no matter how much maintenance is performed, and (2) Advances in technology – both in material sciences and microprocessor based controls – facilitate the production of more modern circuit breakers with better performance, reduced maintenance requirements and on-board diagnostics, to name a few features. With the advancements in the design of the new circuit breakers, circuit breakers with older technology are no longer considered sustainable solutions.
White Paper: Extend the Life of Existing Switchgear
Electrical switchgear has two types of components that make up the system, which can be referred to as passive and active. The passive components include such things as the steel framing channels, cover plates, barriers, horizontal and vertical bus structures, as well as components that make up the mechanical structure of the equipment. The critical active components are the power circuit breakers or fused devices that comprise the overcurrent protective system.
Webinar (On-Demand): Modernization Solutions Improve Power System Reliability and Lower Life-cycle Costs
Viewers will be given an overview of cost-effective modernization and upgrade options that will improve electrical reliability and extend the life of existing equipment with minimal downtime.
Addressing Electrical Safety Concerns Yields Added Benefit for Utility
Modernizing legacy switchgear also improves electrical reliability.
Hope Creek Generating Station
The circuit breakers at this 1,219 MW nuclear power plant had been in use since the facility opened in 1986. After carefully evaluating all options, including whether to refurbish the existing circuit breakers or opt for a total replacement, facilities management secured approvals for modernizing the existing switchgear with Masterpact NW direct replacement circuit breakers.
Circuit Breaker Retrofill Project Modernizes Electrical Distribution for Automobile Manufacturer
The plant’s two primary switchgear lineups were installed in the early 1950s. Though they were still operational, the age of the circuit breakers connected to the 2,000 amp bus in both lineups, along with the elevator-like system used to remove them from the switchgear for maintenance,increased risk for the plant’s electricians.