Title:
Design of Buried Gas Distribution System Vaults Made with Fiber Reinforced Polymer Concrete
Author(s):
R.P. Webster, C.A. Miller, and J.J. Fontana
Publication:
Symposium Paper
Volume:
166
Issue:
Appears on pages(s):
253-270
Keywords:
Fiber reinforced concretes; polymer concrete; structural design; Design
DOI:
10.14359/1532
Date:
12/1/1996
Abstract:
A methodology has been developed for designing precast, fiber reinforced polymer concrete (FPC) vaults to be used in underground applications. The approach used in the design was to consider the vault as a series of plates: cover, walls, and foundation slab. Each plate was subjected to loads resulting from soil pressure, live loading, and dead weight and was analyzed using classical plate theory. This approach was verified by testing two quarter-scale models of a typical vault. Upon completion of the laboratory evaluation, two vaults were designed for use as underground, natural gas regulator stations. The vaults were manufactured and subsequently placed into service by Brooklyn Union Gas Company, and the Consolidated Edison Company of New York.