You have received some very good responses here. I am a little late in replying to your post, but have nearly 30 years experience in the chemical industry and as many of the other post contributors here, have experienced the hazards of steam firsthand.
Things that CANNOT be over-emphasized are:
- Assure yourself that your system is adequately designed and is OPERATED ACCORDINGLY. I use "adequate design" as an all-inclusive term which includes proper engineering of your system, correct materials used in construction, appropriate construction procedures used, proper gaskets, etc. In regard to protecting personnel from ruptured steam pipes, it is much better to PREVENT an occurrence from happening in the first place.
Seemingly minor components such as pipe supports or gasket thickness can play a significant role in overall system integrity (or failure) under the right circumstances.
With all of the downsizing and staffing cutbacks it is becoming much easier for a system to be operated outside of its' design limits and going unnoticed, until problems develop. Computerized control systems often help by notifying personnel when safe operating parameters are exceeded, but only when the warning is heeded and acted upon.
- The response about the aging workforce and long hours is right on the money. I was seriously burned years ago (and I wasn't THAT old at the time either) when a steam hose ruptured under 200 psig pressure. I was only six inches away when it blew, and it removed almost two square feet of skin from my stomach and back. I was working a double shift, was tired, normally wouldn't have had my body in the awkward position that it was, and most likely would have noticed signs that indicated the hose needed to be replaced before I used it.
- Don't ignore seemingly impossible (or highly improbable) events. In cold weather, a failed steam trap in the right place can result in pipe fittings freezing, which can crack and then burst when the weather warms and the line thaws out. I have actually watched a 20-foot section of pipe "unscrew itself" and blow off - carrying many yards away - when a elbow fitting on one end froze and then burst when it thawed out while the rest of the line was still under steam pressure.
Good engineering should not only consider the overall purpose and design of a system, it should also include the potential for operational upsets, equipment failures, and human error / stupid acts in general. You cannot design for all possible "stupid acts", but you CAN decrease the risk if you are aware of some of the things to lookout for while a project is still in the design stage. Things you can't design around should be taken care of administratively or with personnel training. The previous post regarding restricted access to operating areas is something my plant also practices, and is a highly recommended method to minimize unnecessary risk in industrial facilities.
Steve
