well so this was in a previous post (and I don't have the CFR to validate against):
"I have not read the CFR in a while, but I think it only required a sample of 3 cylinders (from a particular type: same size, manufacturer, pressure, etc) to determine the REE number for that type of cylinder. From what I recall, it did not required them to be from the same batch or year or anything similar, just the same type."
if that is true, I should be able to use luis's calculations for any pst and norris tanks (up to hydro people's approval)???
BUT if the published ree is "a relatively conservative" number - how can an average from a sample set be used as an average will have 50% not meet the mark unless that value has a buffer/% calculation in it to set it so "healthy" tanks pass.
And in other posts it's stated the tank has to be LESS than the REE? But from above it sounds like tanks would have values HIGHER than the REE.
As I'd love to have all my old tanks get a +, I'm trying to fully understand the details. Thanks.
I wrote that statement a while back and I just did a quick search on CGA C-5 2005 edition (that is the newest one I have). I could not find where I got that from. It is buried somewhere, and as far as I remember, it wasn't entirely clear how to implement it.
Here is a quote from section 4 (CGA C-5 2005):
4 Rejection elastic expansion values
Rejection elastic expansion (REE) values may be used from the following sources:
- REE stamped at the time of manufacture. Normally, calculated by the manufacturer during the design of the cylinder;
- REE obtained from the manufacturer. Calculated by the manufacturer. but not stamped on the cylinde
- REE found in Table 1 for the cylinder size and design to be evaluated; and
- REE determined by experimental testing and measurement of typical sample cylinder representative of a manufacturer's design. Average wall stress shall be used. See Section 5 and 6.
CGA C-5 is available on line and it is not that expensive if you just buy a downloadable PDF copy.
The equations are fairly straight forward, but there are some judgment calls on how to obtain some of the data. It seems straight forward at first, but for some may think that it is like reading a foreign language.
I totally understand your question about taking an average doesn't seem right in order to determine a threshold for a pass/ fail criteria. I agree that it doesn’t seem right. I can’t find exactly where I read that and I don’t remember if there was a way of dealing with the low numbers, or if it just assumes that the calculation is conservative enough. I will try to look more into it when I have a lot more time.
I have the max/ min values and the standard deviation of my sample of cylinders. All of my calculated REE values are higher than the published value by PST.
Also all my measured EE values are lower than the PST published value.
Since you have the PST value, I would not worry about my calculated numbers.
This statement puzzles me:
And in other posts it's stated the tank has to be LESS than the REE? But from above it sounds like tanks would have values HIGHER than the REE.
What values are you talking about? Are you confusing EE values with REE values?
EE values are measured during the hydro test.
REE values are calculated based on wall cylinder stress.
Again, if you have a technical background, I would recommend you buy a copy of CGA C-5. But, before you do that, you can download:
- CFR – title 49 section 178.37 (Specification 3AA and 3AAX seamless steel cylinders)
- CFR-title 49-vol 3-sec180-205 (General requirements for requalification of specification cylinders)
- CFR –title 49-vol 3-sec180-203 (Definitions)
- CFR –title 49-vol 3-sec180-213 (Requalification markings)
CFR: Code of Federal Regulations (These are the government regulations used by DOT)
CGA: Compress Gas Association (This is an industry association and some of it documents are invoked by the CFR)
The CGA can charge for its documents. The government cannot charge for the CFRs.
