Opportunities For Wood in Low-Rise Commercial Buildings

A versatile and economical approach to large openings, tall walls, and open floor plans
[ Page 2 of 5 ]  previous page Page 1 Page 2 Page 3 Page 4 Page 5 next page
Sponsored by Think Wood
By Scott Breneman, PhD, SE, PE, WoodWorks

Multi-Tenant Buildings

For commercial buildings, determining allowable height and area typically includes considerations related to multiple tenants or occupancies. For example:

  • Incidental uses (IBC Section 509) are those that pose greater risk of fire than the main occupancy, such as machine rooms, laundry rooms, and mechanical equipment rooms. Providing they comprise no more than 10 percent of the area of the given story and have the required fire separation, smoke separation, and/or NFPA 13-compliant automatic sprinkler systems, they are not classified as a separate occupancy for the purpose of determining allowable height and area.
  • Accessory occupancies (IBC Section 508.2) do not pose the same level of risk as an incidental occupancy and therefore do not have the same dedicated passive or active fire safety requirements. To qualify as an accessory occupancy, the area must comprise less than 10 percent of the story area and the IBC 506 “NS” allowable limit value. For commercial buildings, no separation is required between the accessory occupancy and main occupancy, and only the main occupancy need be considered when calculating height and area. Examples include storage in an office or kitchen in a community space.
  • Nonseparated occupancies (IBC Section 508.3) have another level of restriction in terms of fire protection systems (IBC Chapter 9) and allowable height and area, as well as other requirements based on the most restrictive occupancy of the mix. However, the advantage is that they don’t require specified fire-rated assemblies between occupancies. An example would be the same office/ storage scenario, but where the storage comprises more than 10 percent of story area. To check the allowable heights and areas of nonseparated occupancies, the nonseparated occupancies should be checked as if the entire area consists of each of the contained occupancies, with the most stringent check governing the allowable height and area of the nonseparated occupancies.
  • Separated occupancies (IBC Section 508.4), as the name suggests, require fire-rated assemblies between occupancies. This separation allows for larger allowable areas than nonseparated occupancies, while allowable height is based on occupancy—i.e., the IBC allows a specific elevation or number of stories for each occupancy group. Because of this, an architect may be required to put certain occupancies on lower versus higher floors.

A good resource for height and area analysis is the 2015 Code Conforming Wood Design, a joint publication of the ICC and American Wood Council (AWC), available at www.awc.org. WoodWorks also offers a free downloadable Heights and Areas Calculator, available at www.woodworks.org, which reviews and analyzes building height and area compliance with the 2015 IBC for buildings up to six stories, with up to four occupancy groups at each level.

Fire Resistance and Detailing

Types I, II, III, and V Construction are further subdivided into two categories (IA and IB, IIA and IIB, IIIA, and IIIB, and VA and VB) with the difference being the degree of fire resistance required for various building elements and assemblies. For example, in Type VA Construction, all interior and exterior load-bearing walls, floors, roofs, and structural members are required to have a minimum 1-hour fire-resistance rating. In Type VB Construction, no fire-resistance rating is required.

While a detailed discussion of fire resistance is beyond the scope of this course, there are many sources for tested fire-rated assemblies. Fire-rated wood-frame assemblies can be found in publications such as:

  • Underwriters Laboratories’ (UL) Fire Resistance Directory
  • Intertek Testing Services’ Directory of Listed Products
  • Gypsum Association’s Fire Resistance Design Manual

Fire-rated assemblies may also be selected from one of the prescriptive assemblies provided in IBC Section 721, which are based on ASTM E 119 or UL 263 test results, by calculating an assembly’s fire resistance using IBC Section 722 or by other methods indicated in Section 703.3 of the code. The AWC publication, Design for Code Acceptance (DCA) 3 – Fire-Rated Wood Floor and Wall Assemblies, also contains fire ratings of wood-frame wall and floor/ceiling/roof assemblies and is available free at www.awc.org/codes-standards/ publications/dca3.html.

 

[ Page 2 of 5 ]  previous page Page 1 Page 2 Page 3 Page 4 Page 5 next page
Originally published in Architectural Record
Originally published in August 2024

Notice