By William G. Beazley, PhD, Former Executive Director, SPED
I am often asked about the difference between Piping Design and Piping Engineering
By William G Beazley, PhD, Former SPED Executive Director
There are two distinct trajectories into piping: Designer and Engineer. The piping engineer specializes in applied physics and chemistry. The piping designer specializes in applied “ilities,” i.e., fabricatability, constructability, operability, maintainability, etc. This article deals with the piping designer.
THE PIPING DESIGNER BODY OF KNOWLEDGE
CADWorx and Analysis University Returns to Houston
Article and photo by Bill Beazley
The popular CADWorx and Analysis University (CAU) program has returned to Houston after a few years’ absence. CAU is produced by Intergraph CADWorx and Analysis Systems. The program had been co‐located with the Hexagon Live program in Las Vegas. Hexagon is the parent company of Intergraph
CAU is known for quality presentations from practitioners who use ICAS tools, including:
- CAESAR II
- GT Strudl
Presentations also include add‐ons and complementary software from other vendors.
Many customers had found it hard to gain approval for travel to Las Vegas. In addition, CAU lost its unique and distinctive technical character amongst the broad array of Hexagon products. Hexagon, in addition to Intergraph’s products, offers software and hardware for manufacturing, surveying, mapping and other applications. A large number of Intergraph and ICAS customers work in the Houston area.
CAU 2016 continues for two days followed by a special symposium. For more information, consult:
Written by: Gordon Reddek at Piping Design Central
The pig must fit loosely in the launcher/receiver so the barrel of the launcher/receiver must have a greater diameter than the pipe itself. When the pig is received the fluid has to pass around the pig in the barrel, so it would be a good idea to give the barrel a cross sectional area of about twice that of the linepipe, In your case say 28 inches. That will ensure that the velocity of the fluid passing around the pig is similar to the flow rate in the pipe when one or more pigs are in the barrel. You can make the barrel diameter smaller, however I would size it so that the flow velocity around the pig is less than 20m/s when flowing gas and 4m/s when flowing liquid. Be generous with barrel length. It is common for the barrel to hold a batch of pigs (say four or six pigs). Also, if you are going to use an intelligent pig on this line you will be surprised how long they can be. Find out what pigs you are going to use and make sure the barrel has adequate length.
From August 2012, edited March 2013, added 10 October 2016
[Bruce Bullough] I'd like to get your comments, clarifications, experiences, etc., on carbon steel storage tanks at low temps. We have a carbon steel tank that we use as a reservoir tank in our chiller system - the general assumption is that it is a low grade CS, by the way, it's old and we don't have the shop drawing anymore. The chilled liquid (50:50 blend of water and methanol) is kept at -25°F (it might get as cold as -28°F). The tank is well guarded by bollards and the walls of a containment dike, and in a low-traffic area. I'm well aware that CS is not a cryogenic material, and it loses most of it's "toughness" by time it gets to ~0°F. Ideally a tank in this service should be austenitic stainless steel, a "cryo" grade material. I have a crude and general understanding of what toughness is, and that it is not brittleness.
Again, it was the same long hot summer down south, same job as the last story. Here I wasn't on the side of the cheap man for a change.
As the project wound down, we came to the time for the punch list. I had invested a lot of time and sweat into this project and desperately wanted to see it run, but the cheap man (project manager) spoke: "There is no room in the budget to stay. Come home!"