This study investigates the optimal piping layout in the installation of residential natural gas riser piping systems subjected to daily temperature fluctuations. Specifically, it is desired to evaluate the optimal safe configuration for minimum weight requirements in the absence of flexible expansion joints between the riser pipe and the branches. Structural optimization is carried out using fully parametric finite element models employing the singular value decomposition algorithm. Thermally induced stresses are examined to identify the optimal layout. The results indicate that the optimal piping layout satisfies strength requirements and achieves significant weight reduction and hence cost saving compared with existing, rule-based configurations.

1.
B31.8:2003 Natural Gas Distribution Piping Systems—ASME Code for Pressure Piping.
2.
B31.3:2004 Process Piping—ASME Code for Pressure Piping.
3.
BS1387:1985 British Standard Specification for Screwed and Socketed Steel Tubes and Tubulars and for Plain End Steel Tubes Suitable for Welding or for Screwing to BS21 Pipe Threads.
4.
BS21:1985 British Standard Specification for Pipe Threads for Tubes and Fittings Where Pressure-tight Joints Are Made on the Threads, Metric Dimensions.
5.
2008, COSMOSM Theory Manual, Structural Research and Analysis Corporation.
6.
Shigley
,
J. E.
,
Mischke
,
C.
, and
Budynas
,
R.
, 2004,
Mechanical Engineering Design
, 7th ed.,
McGraw-Hill
,
New York
.
7.
2006, “
Requirements and Testing Procedures for the LPCB Approval and Listing of Pipe Couplings
,” Loss Prevention Standard LPS 1219: Issue 3.0, BRE Certification Ltd.
You do not currently have access to this content.