Evaluation of Seismic Resistance of a Fire Protection Riser Pipe System with a Line Segment Analysis Approach
Abstract
Effective stresses due to a seismic
occurrence are prevented in piping systems by
means of seismic bracings and piping supports. A
line segment analysis determines if each pipe
segment in a pipe system has enough flexibility to
survive the target seismic event with a calculated,
optimal use of supports. These ideal support
locations, or anchor points, are determined by
modeling the stresses at each pipe segment and
using several iterations based on different anchor
locations. From these iterations, the combined
stress from the pipe system is compared against a
predetermined seismic stress. If the combined stress
is less than the seismic stress, then the pipe system
is capable of surviving these seismic stresses with a
calculated amount of supports. This evaluation
gives designers the confidence that the resulting
support layout for a given pipe system meets the
demanded resistance for a modeled seismic event.
This study was made in hopes that this approach
becomes a standard procedure for engineers
everywhere. It allows the successful positioning of
seismic supports in a pipe system in order to satisfy
its seismic design criteria by lending the right
amount of flexibility to the system.
Key Terms - Anchor Point, Effective Stress,
Line Segment Analysis, Pipe System.