Quantitative Approaches to Reliability Assessment in Pipe Networks
- 1 May 1986
- journal article
- Published by American Society of Civil Engineers (ASCE) in Journal of Transportation Engineering
- Vol. 112 (3), 287-301
- https://doi.org/10.1061/(asce)0733-947x(1986)112:3(287)
Abstract
Two quantitative approaches to the incorporation of reliability measures in the least‐cost design of looped water distribution networks are developed and assessed. Both approaches begin by obtaining an “optimal” layout design through linear programming. The first approach, addresses the probability of isolating a node through simultaneous failure of all links connected directly to that node. The second approach attempts to recognize redundancy by minimizing the deviations in the reliabilities of all pipes connected to each node within the network. In both cases, the probability of failure of individual links is modeled using the Poisson probability distribution. Comparison of the techniques suggests that minimizing the differences in the reliabilities of pipes connected to each node seems the most promising.This publication has 7 references indexed in Scilit:
- An integrated approach to the layout and design of water distribution networksCivil Engineering Systems, 1985
- An analysis of pipe breakage in urban water distribution networksCanadian Journal of Civil Engineering, 1985
- Optimal urban water distribution designWater Resources Research, 1985
- Obtaining Layout of Water Distribution SystemsJournal of the Hydraulics Division, 1982
- Optimization of Looped Water Distribution SystemsJournal of the Environmental Engineering Division, 1981
- Design of optimal water distribution systemsWater Resources Research, 1977
- Design of Optimal Water Distribution NetworksJournal of the Pipeline Division, 1968