Dear Bob,
Found your thread. I can help you in this area, since of course I spent many years down on the deckplates in the engine room of several Navy Ships. Likewise, I have consulted with superintendents for dewatering(pump selection) projects and worked with consultants with respect to pump problems in the oilfield - rigs, platforms, etc. Finally, I have seen so many mistakes made in pump packages in World Class Refineries and Petrochem plants that it is scary.
I helped solve a $100,000 pump cavitation problem with about $50 of pipe and a few 2" PVC valves. As the water treatment salesperson, they wanted to place the blame on scaling and erosion in the pipe and consequently plugging up the pump due to my chemicals. In addition, they claimed the impeller was being destroyed by the scale.
I traced the system, hand over hand, pulled out my tools from my company car and solved their problem. Different operators would throttle the butterfly valve based upon their own experience. You can imagine what type of control occured from 3 shifts per day.
The first problem I noticed - that is common in every plant (but rarely on Navy Ships/Subs) - is that the pump did not have a recirculation line. Since I had a tap on the pump discharge line to inject my chemicals and a truck backed into the injection line and cracked it, I replaced it and tied back into the suction side of the pump. I left written instructions to not shut the chemical injector feed valve.
About a year ago I ran into one of the engineers who worked at the plant(incident was in 1992). He told me that my solution saved the plant $100,000 in downtime and pump repairs.
I am amazed at how many pumps do not have recirculation lines. If you are going to throttle with a butterfly valve, just install a recirculation line. It prevents the pump from cavitating and destroying itself.
The plant engineers did not know why the pump sounded like marbles were rolling around inside - cavitation!
Sincerely,
Todd Foret
