Laserfiche WebLink
Performance Based Design <br /> Historically, fixed fire suppression systems have been designed in accordance <br /> with a very specific list of prescribed requirements such as those found in NFPA <br /> 13 or other recognized installation codes. While using these prescriptive rules to <br /> design fire suppression systems has proven to be successful, this approach does <br /> not readily provide for protection schemes that are tailored to the specific <br /> purpose and operation of the protected facility. The use of engineering tools to <br /> develop fire protection solutions that take into account the unique aspects of a <br /> facility or operation in the development of an overall fire protection strategy within <br /> the context of a specific performance objective is known as Performance Based <br /> Design [PBD). The practice of PBD requires that any proposed solution provide <br /> a level of safety and dependability that is equivalent to that anticipated if the <br /> prescriptive solution were followed. However, when PBD is employed these <br /> objectives can be achieved in a more flexible manner that may better meet the <br /> needs of building owners, Authorities Having Jurisdiction, and Insurers. <br /> Performance Based Design is a major subset of the broader method of allowing <br /> flexibility within the design and installation codes known as "equivalency" <br /> methods or "alternate methods and materials (AMM)" (note that NFPA-13 refers <br /> to this as "New Technology). Alternate Methods and Materials is a broad <br /> category of design options that includes the application of Performance Based <br /> Design, but also more restrictive deviations from the prescriptive codes. An <br /> L example of this is the substitution of listed components that are recognized by <br /> the prescriptive code with listed components, which have not yet been <br /> incorporated into the code. Many, if not most of the alternate materials and <br /> methods that are employed do not take full advantage of the flexibility allowed <br /> through the practice of Performance Based Design. <br /> Prescriptive codes usually reference "equivalency or "alternate materials and <br /> methods" clauses that permit designers to utilize alternative approaches than <br /> those specifically recognized by the code. These clauses permit the application <br /> of Performance Based Design as a means of rigorously applying engineering <br /> principles to provide alternative methods to the"cookbook"approach. <br /> Examples of AMM references in widely used building and fire codes are as <br /> follows: <br /> 1. From the International Fire Code; 2003 edition, Section 104.9 "Alternate <br /> Materials and Methods": "The provisions of this code are not intended to <br /> prevent the installation of any material or to prevent any method of <br /> construction not specifically prescribed by this code, provided that any <br /> such alternative has been approved. The fire code official is authorized to <br /> approve an alternative material or method of construction where the fire <br /> code official finds that the proposed design is satisfactory and complies <br /> `/ Page oft <br />