As world information centre energy demand continues to rise, pushed by sectors like synthetic intelligence (AI) and cryptocurrencies, the Worldwide Vitality Company (IEA) tasks that by 2026, demand might double, reaching 1,000 terawatt-hours (TWh)—roughly equal to Japan’s complete yearly electrical energy consumption today1. With this rising demand, information centres face mounting stress to enhance backup energy programs to make sure operational continuity.
EnerSys expertise addresses these challenges by embedding monitoring expertise straight into lead-acid batteries. The expertise tracks key battery parameters equivalent to voltage and temperature, enabling information centre operators to carry out proactive upkeep and scale back battery associated downtime. It additionally integrates with the EnVision™ Join system monitor, providing data-driven insights for higher efficiency and operational management.
“We’re proud to be on the forefront of reworking backup energy administration for information centres,” stated Paul Willougby, Director, Information Centre EMEA at EnerSys. “As information centre energy necessities develop, our expertise provides operators enhanced visibility and management, finally bettering reliability and decreasing upkeep prices. The combination of embedded intelligence throughout the battery system is a game-changer for guaranteeing operational continuity in high-demand environments.”
A European information centre just lately deployed 260 DataSafe® batteries with the embedded expertise forward of a serious worldwide sporting occasion to reinforce backup energy monitoring. By integrating this expertise with the EnVision™ Join system monitor, the info centre was capable of obtain extra frequent battery standing updates, decreasing blind spots and bettering its capability to proactively tackle points. This integration additionally led to a discount in emergency upkeep interventions, serving to decrease prices whereas bettering compliance with energy resilience necessities. Moreover, the info centre gained higher operational management, which helped scale back dangers related to backup energy failure.
