cntrlee:
My concern with the BTX’s is not to create alarm over the handling of a very combustible compound. I want to direct your attention to the fact that you have a situation where you are differentially adding an oxidant into a combustible fuel tank – that’s the pure and simple fact of the situation. What’s of more concern is that you are unable to pin-point the moment you arrive at the envelope within your lower and higher limits. The moment you admit to introducing air (with inherent Oxygen content), you are admitting to progressively allowing a potential flammable mixture to form – and should you arrive at that point, a spontaneous combustion inside the tank could form a detonation that would be catastrophic. I’m not predicting this to happen; but how do you propose to arrest or control such a possible scenario if you continuously knowingly (or unknowingly) permit it? A floating roof tank does not resolve your situation. There is the inherent problem of ensuring 100% seal effectiveness – which I seriously doubt is possible for a large vessel. The basic concern still lingers.
I believe your best solution is the fixed roof, API tank, type of design – but with the caveats that you should have a reasonable MAWP and MAWV built into the tank’s construction. This is to furnish you with a workable instrumentation pressure range that will allow set points, alarm points and ensure a positive N2 pressure inside the tank at all times. I’ve done this numerous times in the past with old tanks in multiple services, so I know precisely what your predicament must be like. I empathize, but you must persevere and insist on having a tank with mechanical integrity suitable for the application you are intending to impose on it. It is common for plants to have storage tanks in service that have previously been specified and dealt with in a cavalier manner – simply pointing to “API” standards and letting it go at that. API tanks for chemical service are fine; however, they must be rigorously specified as to MAWP and MAWV – and applied to the corresponding chemical service with the related chemical properties and characteristics always in mind and mitigated.
There are systems to recover any N2 that has to be vented due to subsequent tank fill. However, once again, there is a trade off in costs, equipment, instrumentation, and complexity. There is no easy answer and that’s why an engineer is required to “engineer” the safe, operable, and economic solution. I have organized an Excel workbook on this subject and if you go to
and get to the Forums, you’ll find threads where you can find my email address or solicit the workbook. This should orient you as to what you have to look at with respect to N2 blanketing and safe tank relief.
I hope this helps.
