BasementArtie
Well-Known Member
The reboot is never as good as the original. And I know this has been asked so many times.
I'm here for a discussion about the following.
I kind of wish this subject had previously received a definitive answer to the question. (I think it's important to say I'm in the UK and have access to 33cl Belgians bottles as I hear American beer bottles can be paper thin).
First and foremost do not use anything I say within your bottling technique for priming calculations as this is only a theory which hasn't been tested at all, this is NOT guidance.
I'm sick of wondering what a bottle can hold CO² Vol wise and worrying what the tolerances, what the max would be and what's safe. Everyone says 2.5 vol.CO² is fine and 3 is the limit, that's not good enough for me.
Obviously the question is hard due manufacturing processes, shape of bottle, any damage, how many times a bottle has been reused (as I read something that the stress tolerance can be reduced by up to ~25% for bottle which are reused).
There was a thread previously in 2019 which sparked my interest which was looking at stubbie Belgian 33cl and 12oz bottle weight and the relationship to the pressure the brewers use within these styles. Light vs Heavy Glass, safe levels of carbonation
I was surprised the initial idea and analysis didn't take off and spark more discussion (may the same thing has been discussed in length else where).
As this thread was looking specifically at smaller bottles and seemingly came to the conclusion that the Belgian beer bottles use at least 65g+ for each Volume of CO² in a 33cl container, I wondered if the size of bottle should be including in the equation, as obviously the method of dividing co2/vol by the weight wouldn't work for larger bottles (500ml or 750ml) as these will obviously weigh more, but perhaps not in a linear relationship to size.
So I came up with the idea of adapting the equation to g/ml per Vol.CO² as you can see this is a mix of metric and imperial however it should work.
Disclaimer: this is for capped bottles (my Tripel karmeliet and St Bernardus corked and caged are 620-640g empty bottles which hold 3.5-4 vol.CO²).
I.E.
Orval beligan bottle weigh 354g but hold 330ml so 354g/330ml = 1.073g/ml then divide by the pressure used in the bottle so 5 = 0.215g/ml per Vol.CO²
Likewise this would mean Westmalle at 4 Vol.CO² and the bottle is ~317g would be equal to 0.240g/ml per Vol.CO²
Then let's say I want to pressure my 750ml Belgian flip top of course with a Tripel inside which weighs 533g to 3.5 Vol.CO² this would be 0.203g/ml per Vol.CO²
Which would pretty identical to what a 330ml Rochefort bottle would be rated to at 3.5 Vol.CO² 0.207g/ml per Vol.CO².
La Chouffe, St Feuillien, Duvel etc all use the same bottles, I've weighed them and range from 281 to 288g so at 284g Duvel is 4.25 in vol. Which is 0.202g/ml per Vol.CO².
St Bernardus, Gouden Carolus, Delirium (other than the grey flecked paint) use the same bottles as Rochefort judging by shape and weight. 241-246g and likely from what I can find Carb to 3.5vols. which again is 0.2+
This got me wondering if I could create a "rule of thumb" using this information that you potentially would want to keep the g/ml per Vol.CO² above 0.2 to keep things "Safe". This links to the previous thread and the value of 65g per vol of CO² for a 330ml bottle as 0.2x330ml = 66g per vol of CO².
Obviously again this isn't taking into account shape of bottle or manufacturing processes or storage temp or agitation but what rule of thumb can account for every confounder.
Using 0.2 as an arbitrary "safe" cut off would leave Orval's bottle to be max rated to 5.36 vol Co² and Westmalle would be 4.81 vol Co². Which seems reasonable as during transportation they would need to see increases in PSI caused by agitation and temperature increase.
Then as I was focused on extremely strong beligan bottles I wanted to see if it was possible extrapolate this to other bottles.
The new 450ml swing top green Grolsch bottle would be rated to 0.2 at 4.25 vols. (383g) and my home-brew-shop swing top bottles 500ml (454g) would be 4.54 vol. for 0.2. I've questioned the shop I bought the homebrew ones from what they are rated to and they openly admitted they didn't know however they said that they haven't ever had bottle bombs using these (themselves and customers) and people buy them for mead rated higher in CO² Vol than beer and he was so confident he said "I will give you my word that they should be fine & any issues you can come back to hunt me down! "
Furthermore I have attached a file from Northern Brewer they state Max to be the following.
BOTTLE:VOLUME CHART
Bottle size | Max Vol. CO²
12oz. 3
33cl Belgian 3.5
500ml European 3.5
Swing top 4
Champagne 7
PET 10
Which kind of fits in.
Take a 12oz bottle to weigh ~200g would be maxed ~0.20g/ml per Vol.CO² at 3vol.
33cl Belgian if they were using the Trappist Rochefort / St Bernardus / Gouden Carolus / Delirium as they example this would be ~241g which would work out at ~0.209g/ml Vol.CO² at 3.5vol.
500ml European bottles vary a lot (from 300g to 450g) depending on style, however I would say 350g is roughly about right. Which would calculate at exactly 0.2g/ml Vol.CO² at 3.5vol.
Swing tops, the two I've already mentioned are 383g at 450ml and 454g at 500ml which work out at 4+ (4.2 and 4.5vol respectively) at 0.2g/ml Vol.CO² (I don't know if US Swingtop are lighter than the Grolsch style, if so this may attribute to the 4 Max rating, however 4 is still high)
Champagne bottles can be from 750-900g per a bottles and are 750ml. Using 900g this according using 0.2g/ml per Vol.CO² would only allow for a Max of 6vols. Either champagne bottles use better glass and design than beer bottles to hold higher CO² volumes or the 0.2 estimate is conservative as at Northern Brewer's 7 max figure this would be 0.17g/ml per Vol.CO² for a 900g bottle and even lower still for a 750g bottle at 0.143g/ml per Vol.CO².
I'd like to say the only times I've heard people discussing bottle bombs are 1)frozen beer 2) infection 3) bottling too early 4)overfilled and too hot (expansion) 5) pre-damaged bottles. It seems rare to over prime enough for smashing bottles and very anecdotal I know but it seem like people have pushed way above the upper limits of bottles without issue other than over-carbed beer i.e. 4-5.
Again I reiterate this is just a theory currently and I have done no testing so please do not use this as guidance as this can be dangerous. However I would like people's thoughts on the topic.
I'm here for a discussion about the following.
I kind of wish this subject had previously received a definitive answer to the question. (I think it's important to say I'm in the UK and have access to 33cl Belgians bottles as I hear American beer bottles can be paper thin).
First and foremost do not use anything I say within your bottling technique for priming calculations as this is only a theory which hasn't been tested at all, this is NOT guidance.
I'm sick of wondering what a bottle can hold CO² Vol wise and worrying what the tolerances, what the max would be and what's safe. Everyone says 2.5 vol.CO² is fine and 3 is the limit, that's not good enough for me.
Obviously the question is hard due manufacturing processes, shape of bottle, any damage, how many times a bottle has been reused (as I read something that the stress tolerance can be reduced by up to ~25% for bottle which are reused).
There was a thread previously in 2019 which sparked my interest which was looking at stubbie Belgian 33cl and 12oz bottle weight and the relationship to the pressure the brewers use within these styles. Light vs Heavy Glass, safe levels of carbonation
I was surprised the initial idea and analysis didn't take off and spark more discussion (may the same thing has been discussed in length else where).
As this thread was looking specifically at smaller bottles and seemingly came to the conclusion that the Belgian beer bottles use at least 65g+ for each Volume of CO² in a 33cl container, I wondered if the size of bottle should be including in the equation, as obviously the method of dividing co2/vol by the weight wouldn't work for larger bottles (500ml or 750ml) as these will obviously weigh more, but perhaps not in a linear relationship to size.
So I came up with the idea of adapting the equation to g/ml per Vol.CO² as you can see this is a mix of metric and imperial however it should work.
Disclaimer: this is for capped bottles (my Tripel karmeliet and St Bernardus corked and caged are 620-640g empty bottles which hold 3.5-4 vol.CO²).
I.E.
Orval beligan bottle weigh 354g but hold 330ml so 354g/330ml = 1.073g/ml then divide by the pressure used in the bottle so 5 = 0.215g/ml per Vol.CO²
Likewise this would mean Westmalle at 4 Vol.CO² and the bottle is ~317g would be equal to 0.240g/ml per Vol.CO²
Then let's say I want to pressure my 750ml Belgian flip top of course with a Tripel inside which weighs 533g to 3.5 Vol.CO² this would be 0.203g/ml per Vol.CO²
Which would pretty identical to what a 330ml Rochefort bottle would be rated to at 3.5 Vol.CO² 0.207g/ml per Vol.CO².
La Chouffe, St Feuillien, Duvel etc all use the same bottles, I've weighed them and range from 281 to 288g so at 284g Duvel is 4.25 in vol. Which is 0.202g/ml per Vol.CO².
St Bernardus, Gouden Carolus, Delirium (other than the grey flecked paint) use the same bottles as Rochefort judging by shape and weight. 241-246g and likely from what I can find Carb to 3.5vols. which again is 0.2+
This got me wondering if I could create a "rule of thumb" using this information that you potentially would want to keep the g/ml per Vol.CO² above 0.2 to keep things "Safe". This links to the previous thread and the value of 65g per vol of CO² for a 330ml bottle as 0.2x330ml = 66g per vol of CO².
Obviously again this isn't taking into account shape of bottle or manufacturing processes or storage temp or agitation but what rule of thumb can account for every confounder.
Using 0.2 as an arbitrary "safe" cut off would leave Orval's bottle to be max rated to 5.36 vol Co² and Westmalle would be 4.81 vol Co². Which seems reasonable as during transportation they would need to see increases in PSI caused by agitation and temperature increase.
Then as I was focused on extremely strong beligan bottles I wanted to see if it was possible extrapolate this to other bottles.
The new 450ml swing top green Grolsch bottle would be rated to 0.2 at 4.25 vols. (383g) and my home-brew-shop swing top bottles 500ml (454g) would be 4.54 vol. for 0.2. I've questioned the shop I bought the homebrew ones from what they are rated to and they openly admitted they didn't know however they said that they haven't ever had bottle bombs using these (themselves and customers) and people buy them for mead rated higher in CO² Vol than beer and he was so confident he said "I will give you my word that they should be fine & any issues you can come back to hunt me down! "
Furthermore I have attached a file from Northern Brewer they state Max to be the following.
BOTTLE:VOLUME CHART
Bottle size | Max Vol. CO²
12oz. 3
33cl Belgian 3.5
500ml European 3.5
Swing top 4
Champagne 7
PET 10
Which kind of fits in.
Take a 12oz bottle to weigh ~200g would be maxed ~0.20g/ml per Vol.CO² at 3vol.
33cl Belgian if they were using the Trappist Rochefort / St Bernardus / Gouden Carolus / Delirium as they example this would be ~241g which would work out at ~0.209g/ml Vol.CO² at 3.5vol.
500ml European bottles vary a lot (from 300g to 450g) depending on style, however I would say 350g is roughly about right. Which would calculate at exactly 0.2g/ml Vol.CO² at 3.5vol.
Swing tops, the two I've already mentioned are 383g at 450ml and 454g at 500ml which work out at 4+ (4.2 and 4.5vol respectively) at 0.2g/ml Vol.CO² (I don't know if US Swingtop are lighter than the Grolsch style, if so this may attribute to the 4 Max rating, however 4 is still high)
Champagne bottles can be from 750-900g per a bottles and are 750ml. Using 900g this according using 0.2g/ml per Vol.CO² would only allow for a Max of 6vols. Either champagne bottles use better glass and design than beer bottles to hold higher CO² volumes or the 0.2 estimate is conservative as at Northern Brewer's 7 max figure this would be 0.17g/ml per Vol.CO² for a 900g bottle and even lower still for a 750g bottle at 0.143g/ml per Vol.CO².
I'd like to say the only times I've heard people discussing bottle bombs are 1)frozen beer 2) infection 3) bottling too early 4)overfilled and too hot (expansion) 5) pre-damaged bottles. It seems rare to over prime enough for smashing bottles and very anecdotal I know but it seem like people have pushed way above the upper limits of bottles without issue other than over-carbed beer i.e. 4-5.
Again I reiterate this is just a theory currently and I have done no testing so please do not use this as guidance as this can be dangerous. However I would like people's thoughts on the topic.
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