Stationary Energy Storage Systems

• By Mike Halligan
• 09/01/18

As more of our schools “go green” and we add energy storage systems to our buildings, there are additional fire safety considerations we must be aware of. Specifically, the battery systems used to store energy come with risks. In order to mitigate these risks, codes and standards are now defining how we construct locations where batteries are located. This will also add to our facilities inspection, testing, and maintenance responsibilities.

What to Look For

In order to create a preventive maintenance and inspection program, you should be able to review construction documents submitted for permitting. Newly constructed locations for stationary storage battery systems are evaluated according to the International Code Council Fire Code Section 608 (2018 ed.). Construction documents should include:

• Location and a layout diagram for the room containing batteries.
• Details on hourly fire-resistive wall, floor, and ceiling assemblies, including protected openings.
• Quantities and types of storage batteries and battery systems.
• Manufacturers’ specifications, ratings, and listings of storage batteries.
• Location and content of required signage.
• Details on fire suppression, smoke detectors, and ventilation systems.
• Rack storage arrangement, including seismic support criteria.

Hazard Mitigation Analysis

Electrical shops should be familiar with the Hazard Mitigation Analysis for battery systems. Specifically, they should be familiar with locations where more than one stationary storage battery system is provided and the potential for adverse interactions between systems. In addition, your staff should be reviewing or inspecting for: thermal runaway conditions; voltage surges on the primary supply; short circuits on the load side; failure of the smoke detection, fire suppression, or gas detection systems; spill neutralization materials; and secondary containment systems.

Review Placement and Signage

Facilities staff should also review locations to ensure that battery systems are not located more than 75 feet above fire department vehicle access, and that combustible materials are not stored in battery rooms, cabinets, or enclosures. In rooms, work desks need to be a minimum of 3 feet away from battery cabinets.

Signage is required on all doors or locations near entrances to battery storage rooms. The following information must be included on signage:

• The room contains energized battery systems.
• The room contains energized electrical circuits.
• Information that is specific to the types of storage batteries in the room.

The locations of electrical disconnects must be marked as well. Electricians should be able to have main disconnects within sight if in the same room, or there needs to be placards or directories identifying the location.

If battery storage locations are situated outside, the following items must be reviewed:

• If battery systems are subject to vehicle impact, vehicle impact protection must be provided and maintained.
• Systems must be separated a minimum of 5 feet from: lot lines, public ways (part of egress system requires 10 feet of separation), buildings, stored combustible materials, hazardous materials, high-piled storage, and other exposure hazards.

Outdoor Locations and Other Systems

Outdoor locations must be secured against unauthorized entry. If battery systems are in an outdoor walk-in enclosure, the unit may only be entered for inspection, maintenance, and repair. The enclosure may not be used for any other purposes.

There are additional requirements for suppression and ventilation systems. Consult with fire protection and mechanical engineers for the specifics of these systems.

As you can see, as your buildings “go green” there will be many more portions of the battery storage system location you will need to inspect and maintain in order to keep a high level of fire safety on your campus.

This article originally appeared in the College Planning & Management September 2018 issue of Spaces4Learning.