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L <br /> with the intent of the provisions of this code, and that the material, method, <br /> or work offered is, for the purpose intended, at least the equivalent of that <br /> prescribed in this code in quality, strength, effectiveness, fire resistance, <br /> durability, and safety." <br /> 2. From NFPA-13; 2002 edition, Section 1.5 "Equivalency': "Nothing in this <br /> standard is intended to prevent the use of systems, methods, or devices of <br /> equivalent or superior quality, strength, fire resistance, effectiveness, <br /> durability, and safety over those prescribed by this standard. Technical <br /> documentation shall be submitted to the authority having jurisdiction to <br /> demonstrate equivalency. The system, method, or device shall be <br /> approved for the intended purpose by the Authority Having Jurisdiction. <br /> 3. From NFPA-13; 2002 edition, Section 1.6 "New Technology: Nothing in <br /> this standard shall be intended to restrict new technologies or alternate <br /> arrangements, provided the level of safety prescribed by this standard is <br /> not lowered." <br /> Ongoing research into understanding fire-related phenomena continuously <br /> improves the capability of the engineering community to analyze and predict the <br /> performance of structures and/or protection systems when subject to a fire event. <br /> The use of analytical tools such as empirical models, finite element analysis, and <br /> computational fluid dynamics, in conjunction with bench top and full scale testing <br /> has greatly improved the ability of fire protection professionals to develop <br /> Performance Based solutions to challenging fire protection problems. Any <br /> proposed PBD solution requires acceptance by the Authority Having Jurisdiction <br /> and frequently the insurer, building owner, and other stakeholders as well. <br /> Ensuring that all participants understand and agree to the performance and <br /> limitations of any proposed design requires clear, regular communication by the <br /> responsible fire protection professional. <br /> Performance-based design is rarely simple, and never easy, particularly given <br /> the diversity of viewpoints arising from the involved stakeholders. However, for <br /> challenging fire protection problems the application of this process can result in <br /> solutions that provide performance superior to the prescriptive solution, while <br /> eliminating undesirable or unworkable features arising from strict adherence to <br /> the prescribed design. These improvements are usually achieved by integrating <br /> all of the fire protection systems rather than designing each piece in isolation. <br /> The practice of PBD requires skilled individuals with a thorough understanding of <br /> fire protection principles. For this reason the application, evaluation, installation, <br /> and acceptance of Performance Based Design alternatives should be <br /> accomplished only by qualified professionals. <br /> Page 2 of 2 <br />