If your computer loses power while you’re using it, you will lose any unsaved work which can be detrimental and result in rework and higher labor costs.It is also possible they can be completely damaged causing the need for replacement. Power loss can harm or weaken the internal parts of your computer.Sudden loss of power can corrupt operating systems installation, which can result in costly repairs.Preventing your computer from losing power is highly important for several reasons: By implementing a battery backup or an uninterrupted power supply (UPS) you are able to avoid losing unsaved data or harming the electronics in many ways. Important electronics that help you run your business can shut down during electrical surges or outages and brownouts. One can hardly argue that that was an acceptable “solution.” Proactively investing in a resilient grid makes more sense in light of such a situation, which plunged millions of people into darkness and cost untold billions of dollars in lost productivity.Ĭontact BAW to ensure state-of-the-art grid resiliency.Why do you Need a Battery Backup or a UPS? Without any reliable backup system, PG&E made the fateful decision in late summer of 2019 to cut power to millions of people throughout the state, simply because the electrical wires could not withstand winds exceeding 35 miles per hour. The Pacific Gas & Electric (PG&E) company’s outdated electrical distribution system had sparked fires in 2018 that decimated huge swathes of rural northern California. If this all seems a bit redundant, consider the situation in California in 2019. In that event, up to 100 people could immediately relocate to the backup facility, to man the controls in an effort to minimize disruption to the regional power grid to the fullest extent possible. The control room is minimally manned, in a standby function that is, until an emergency scenario compromises the primary facility, in which case it would swing into action.
It must be able to withstand a category F5 tornado and a category 4 hurricane. The backup facility must be extremely robust. The architectural style is designed to feel at home in the rural New England landscape. The south facing roof will maximize the incorporation of photo voltaic solar panels for on-site power generation. Examples include using an HVAC system to comply with the highest indoor air quality standards monitoring energy performance use of low-flow plumbing fixtures LED interior and exterior lighting to minimize night time light pollution and a geo-exchange system that will reduce carbon-based heating and cooling demands. The new facility will incorporate energy efficiency and environmental sustainability principles, consistent with the company’s overall commitment to sustainability. It houses a central control room, a large, multipurpose conference room that can also serve as an emergency response center, and a secondary data center designed to collect, safeguard, and use transmission-related data critical to their business operations. The project incorporates state-of-the-art human factors engineering. NERC guidelines call for secondary backup facilities that can kick in instantaneously in the event of primary control facility failure. That event exposed just how vulnerable the electrical grid actually was in many ways. These guidelines were formulated in the wake of the 2003 Northeast Blackout, an electrical outage that had devastating economic and even life-threatening consequences.
The North American Electrical Resilience Corporation ( NERC) provides guidelines for the performance criteria for the electric grid in the United States.
They called on BAW to design a backup control room and secondary data center. They needed a new, secondary facility and data center control room for the purposes of providing enhanced grid resiliency. The client is responsible for the safe, reliable and cost-effective transmission of electricity throughout much of New England.
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