Piping (engineering): Difference between revisions

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* A good understanding of [[pipe stress analysis]]
* A good understanding of [[pipe stress analysis]]
   
   
Piping designers and pipe stress engineers are responsible for the proper placement of pipe hangers and pipe supports. They are also responsible for making sure that that the [[thermal expansion]] and contraction of the piping is compensated for and that the allowable pipe stresses are not exceeded under the appropriate design codes and standards.<ref>[http://catalog.asme.org/books/PrintBook/Process_Piping_Complete_Guide.cfm Process Piping: ASME B31.3] (published by the [[American Society of Mechanical Engineers]])</ref><ref>[http://catalog.asme.org/Codes/PrintBook/B311_2004_Power_Piping.cfm Power Piping: ASME B31.1] (published by the American Society of Mechanical Engineers)</ref> The checking of pipe stresses is usually done with the assistance of a computerized ([[Finite element analysis|finite element]]) pipe stress analysis program such as [[Caesar II]], [[ROHR2]], [[CAEPIPE]] and [[AUTOPIPE]].
Piping designers and pipe stress engineers are responsible for the proper placement of pipe hangers and pipe supports. They are also responsible for making sure that that the [[thermal expansion]] and contraction of the piping is compensated for and that the allowable pipe stresses are not exceeded under the appropriate design codes and standards.<ref>[http://www.asme.org/products/books/process-piping--the-complete-guide-to-asme-b31-3-- Complete Guide to ASME B31.3, Third Edition ] (published by the [[American Society of Mechanical Engineers]])</ref><ref>[http://catalog.asme.org/Codes/PrintBook/B311_2004_Power_Piping.cfm Power Piping: ASME B31.1] (published by the American Society of Mechanical Engineers)</ref> The checking of pipe stresses is usually done with the assistance of a computerized ([[Finite element analysis|finite element]]) pipe stress analysis program such as [[Caesar II]], [[ROHR2]], [[CAEPIPE]] and [[AUTOPIPE]].


==Plumbing==
==Plumbing==

Revision as of 13:29, 15 June 2011

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This article is about Piping (engineering). For other uses of the term Piping, please see Piping (disambiguation).
(Morguefile) Photo: Scott M. Liddell
Exaple of large-scale industrial piping.

Piping is a system of pipes (hollow, cylindrical tubes) used to convey liquids, gases and sometimes other materials from one location to another within industrial facilities such as petroleum refineries, chemical and petrochemical manufacturing, natural gas processing, electricity-generating power plants and many others. The adjacent photo depicts a complex piping system in an industrial plant.

Industrial plant piping and the accompanying in-line components can be manufactured from various steel alloys, titanium, aluminum, copper, glass or various plastics. The in-line components are known as fittings and valves.

Process control systems use in-line sensors and control valves installed in the piping to monitor and regulate the desired temperatures, pressures, flow rates and process vessel liquid levels of the fluids being transported and processed. Piping and control systems are documented in drawings referred to as Piping and Instrumentation Diagrams.

Piping design

(CC) Photo: R.B. Reed
Another example of large-scale industrial piping.

The routing and layout of the pipes fittings in a complex piping system is typically done by experienced piping draftsmen known as piping designers. The discipline of piping design does not require a university degree but it does requires a good many technical skills such as:[1][2][3]

  • The principles and practice of drafting in general and of creating isometric drawings.
  • Familiarity and experience with computerized drafting programs.
  • The ability to visualize and develop an industrial facility plot plan.
  • A basic understanding of fluid flow, piping materials and piping specifications.
  • An extensive knowledge of piping standards and codes as well as process safety codes and practices.
  • A knowledge of the various types of pipe connections such as threaded, welded and flanged connections as well as a knowledge of the various types of valves and why and where they are used.
  • A good understanding of pipe stress analysis

Piping designers and pipe stress engineers are responsible for the proper placement of pipe hangers and pipe supports. They are also responsible for making sure that that the thermal expansion and contraction of the piping is compensated for and that the allowable pipe stresses are not exceeded under the appropriate design codes and standards.[4][5] The checking of pipe stresses is usually done with the assistance of a computerized (finite element) pipe stress analysis program such as Caesar II, ROHR2, CAEPIPE and AUTOPIPE.

Plumbing

For more information, see: Plumbing.

Plumbing is a smaller-scale piping system that most people are familiar with because it is used to provide potable water and natural gas (or fuel oil) to their homes and businesses.

Plumbing systems in residential and commercial buildings also provide water to fire sprinkler systems, distribute hot water, route the refrigeration fluids used in air conditioning and remove sewage.

References

  1. James O. Pennock (2001). Piping Engineering Leadership for Process Plant Projects. Gulf Professional Publishing. ISBN 0-88415-347-9. 
  2. R.H. Perry, R.H. and D.W. Green (Editors), (2007). Perry's Chemical Engineers' Handbook, 8th Edition. McGraw-Hill Book Company. ISBN 0-07-142294-3. 
  3. John J. McKetta (Editor) (1992). Piping Design Handbook. Marcel Dekker, Inc.. ISBN 0-8247-8570-3. 
  4. Complete Guide to ASME B31.3, Third Edition (published by the American Society of Mechanical Engineers)
  5. Power Piping: ASME B31.1 (published by the American Society of Mechanical Engineers)