Webcast: Standby Systems for Hospital Campuses and Data Centers
Hospitals and data centers have incredibly difficult requirements for electrical systems. Not only are the systems complex and have to run 24/7, the implications for failure can be loss of life or millions of dollars in productivity or lost revenue. Register for this on-demand webcast.
Standby Systems for Hospital Campuses and Data Centers
Thursday, October 21 at 2 p.m. ET/1 p.m. CT/11 a.m. PT
Register for the on-demand webcast now
Hospitals and data centers have incredibly difficult requirements for electrical systems. Not only are the systems complex and have to run 24/7, the implications for failure can be loss of life or millions of dollars in productivity or lost revenue.
In this Webcast, design engineers will present two unique case studies of standby-system design, one on a hospital campus renovation following a devastating flood, and the other on a new spec data center that had to be robust, but also highly flexible to accommodate future, undefined occupants.
Case Study 1: Flood-hardening an electrical system
Speaker: Tom Divine, PE Senior Engineer / Project Manager, Smith Seckman Reid, Inc. (SSR), Houston
Flooding from a tropical storm damaged or destroyed the electrical infrastructure of a large hospital campus. After the initial restoration, both the emergency and utility electrical systems were hardened against future flooding. Measures included protection in place, reconstruction at higher elevations, and system reconfiguration to isolate vulnerable floors. The heart of the electrical system was replaced, while maintaining continuity of patient care.
Case Study 2: Keeping it Flexible – Speculative Data Center Standby Power Design
Speakers: Scott Kesler, and Haroon Sheikh, Senior Electrical Engineer, Cannon Design, Chicago
Designing an emergency power and distribution system for a spec data center requires a bit of imagination and solid engineering fundamentals–but more than anything, a flexible design process and solution. In this session we will review our design for 100,000 sq ft of data center space intended to be subdivided into various tenant suites. The standby power and emergency distribution system not only needed to be robust and have ample capacity for high density computing space, but also needed to be able to adapt and be flexible for however the occupant ultimately configured their space.
Registered attendees are eligible to receive CEUs.