Safety of radial vs axial scrubber

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The most popular units have axial scrubbers and they work just fine for your purpose.

If they worked fine, we would not have so many unexplained fatalities to date amongst experienced divers.

So, we need to do more, because the current situation is far from "fine."

Even if the fatalities were caused entirely by human error, to use an analogy, having driven extensively both a Yamaha FZR 1000 and a Piaggio Vespa, I can tell you that under the same usage conditions the FZR 1000 is very forgiving of human error, the Vespa is not.

So, given all units are close to each other in price, there is an argument for purchasing the one whose performance is the greatest.

In the case of this thread, you'd want to buy the rebreather with the lowest WOB and the highest scrubber Duration, and not the one with the highest WOB and lowest scrubber duration (despite its popularity amongst the uninformed).
 
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[Mod hat on]
Guys,

A few people have raised concerns about some of the posts on this thread. There's nothing too bad here, but please do try to play the ball and not the man.

Cheers,
Janos
[/Mod hat off]
 
RC, frankly build a bridge, your insults are just as well formulated.

And for the public record my comment was a response to your "You are primitive, do not know the subject matter"

Net net patent trolls don't produce products and your one while all you have are patents and in this case Paul has products and proof of testing to say your wrong. As I said, big balls....
I got a notification from the equipment manufacturer Faser, test stand run sinks of CO2 in the 70's there Stanislaw Skrzynski Commander in the Naval Academy. Gained knowledge in people who did the study.
Dr. Danuta Grzywaczewska gave a piece of knowledge about the oxygen generating mass, so it had a big advantage in talking to Aqua Lung Military.
Numbers that I can keep going but I will ask you.
What do you have?
(Numbers of patents, scientific publications. Degrees diving instructor in the ass you can shove, it rubbish)

If Paul was right, that there was not a reaction zone on a bed of soda lime.
It occurs, the reaction does not occur immediately.

That is why Paul does not know the subject, as well as only you believe in it.

rc greet
 
matthewoutram said:
The most popular units have axial scrubbers and they work just fine for your purpose.

If they worked fine, we would not have so many unexplained fatalities to date amongst experienced divers.

Well obviously they aren't unexplained anymore if you link them to the unsafe and deadly axial scrubbers? I'm sure you wouldn't do that without solid documentation.
 
If they worked fine, we would not have so many unexplained fatalities to date amongst experienced divers.

So, we need to do more, because the current situation is far from "fine."

Even if the fatalities were caused entirely by human error, to use an analogy, having driven extensively both a Yamaha FZR 1000 and a Piaggio Vespa, I can tell you that under the same usage conditions the FZR 1000 is very forgiving of human error, the Vespa is not.

So, given all units are close to each other in price, there is an argument for purchasing the one whose performance is the greatest.

In the case of this thread, you'd want to buy the rebreather with the lowest WOB and the highest scrubber Duration, and not the one with the highest WOB and lowest scrubber duration (despite its popularity amongst the uninformed).



Can you clarify which design is more difficult or more critical in its attention to detail when packing the scrubber?

I have always believed radial scrubbers to be fragile, difficult to pack and more prone to breakthrough if packed incorrectly.

If this is true then any gain in efficiency is outweighed by increased packing failure rate.




ATB

Mark
 
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If Paul was right, that there was not a reaction zone on a bed of soda lime.
It occurs, the reaction does not occur immediately.

That is why Paul does not know the subject, as well as only you believe in it.

rc greet

sorry, these posts become stupid..

? did I say there was no reaction zone? euhh... don't think so

I think again something lost in the language: please rc get someone to translate our posts..


now I freely admit that maybe I do not know the subject... but have you, rc, ever done one test on a scrubber yourself?


I did have 'some' input in writing the scrubber time prediction algorithm used in our rebreathers :-)
 
Well obviously they aren't unexplained anymore if you link them to the unsafe and deadly axial scrubbers? I'm sure you wouldn't do that without solid documentation.

Less safe YES, "unsafe" depends on which standard you adopt as benchmark.

Take the Meg, for example.

The Meg with an Axial scrubber may be outside the NEDU limit (more stringent), but inside the EN14143 limit (looser).

The Meg with the ISC 8 lbs. Radial is instead inside both the NEDU and EN14143 limit.

So, when I purchased my Meg, I chose to pay an extra USD 560 (off the top of my head) to receive it with the ISC 8 lbs. Radial scrubber in place of the ISC Axial one, on first purchase.

I would not dive any rebreather which does not meet the NEDU limits, but that is me, making an informed decision, based on data/numbers, having looked at all available information, and I'd pay a little extra for a better performing scrubber on first purchase.
 
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Can you clarifie which design id more dificuilt or more critical in its attention to deetail when packing the scrubber?

I have alweays beleived radial scrubers to be fragile, dificult to pack and more prone to breakthrough if packed incorectly.

If this is true then any gain in eficiency is outweighed by increased packing failure rate.

ATB

Mark

I only have experience with packing the ISC 8 lbs. Radial and before that the Draeger and APD Axials.

The ISC 8 lbs Radial takes longer to pack, but it is NOT more difficult to tap.

The procedure is the same, fill a bit, tap tap tap, fill a bit, tap tap tap.

The ISC 8 lbs. Radial though needs to be packed tighter than my former Axials (my personal experience) and it takes longer to ensure that the absorbent granules are well packed.

If you weight your scrubber after you fill it, then you may be able to build a database of numbers to show how consistent your filling is over various fills.

If you achieve consistency, and can show consistency in some measurable way like weighing the scrubber, then you are substituting "belief" or fantasy and fiction with fact.

Fact is the ISC 8 lbs Radial can be filled in a measurably consistent and "safe" manner. I have the numbers to prove that.

It does take longer to fill it vs. my former Axials though (my personal experience).
 
Can you clarifie which design id more dificuilt or more critical in its attention to deetail when packing the scrubber?

I have alweays beleived radial scrubers to be fragile, dificult to pack and more prone to breakthrough if packed incorectly.

If this is true then any gain in eficiency is outweighed by increased packing failure rate.

I think you're right.

My understanding is that if you pack your axial scrubber (say) 4 or 5mm shallow, then you could get channelling because the granules don't sit right. However this might be taken up by the units springs, or you might lose a few cm of scrubber bed due to channeling but not the whole thing.

However, with a radial, if you're a few mm short at the top then you'll get instant breakthrough in that area.

Janos
 
However, with a radial, if you're a few mm short at the top then you'll get instant breakthrough in that area.
Janos

Half the problem is that people on internet forums are commenting on this and that without ever having actually seen, touched, and used this and that.

You do not want to be a few mm. short on the Radial when you pack it, but on the ISC 8 lbs. Radial there is a spring loaded mechanism to accommodate for a little bit of settling afterwords and in the central section of the Radial there is a cap which should mitigate somewhat the problem which you describe.

Without the cap on the inner tube and a spring loaded top, YES a few mm. poor fill would definitely cause breakthrough in a Radial, but if the Radial is filled properly and tight, and then the absorbent settles a little further, the cap on the inner tube and the spring loaded top "should" (no proof I have) mitigate the further settling of the absorbent.

Bear in mind though that Sofnolime tends to swell in use, so I have observed, and after inspecting the Radial after each dive series, as I always do, I never found the absorbent being looser than I originally packed.

If anything, I have a small worry that if the Sofnolime swells in use, and I packed the Radial "too tight," then this may put undue pressure on the Radial scrubber (the walls and the bottom).

It appears to be built very solid though.

I'll add a few pictures shortly so that people who have never seen one can understand better (sorry no picture of the spring loaded cap handy).

radialsafety.jpg


radial.jpg
 
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That is the best way to purchase a ticket to heaven!

Check the numbers for yourself and take nothing on face value when it comes to rebreathers (buying a tooth-brush is another story).

That is why I place so much emphasis on actual numbers... it is the actual performance figures which make the difference between a Yamaha FZR 1000 and a Piaggio Vespa or a Ferrari and a Fiat (all are "CE" but one is very different from another).

Current Radials are by far superior to current Axials and safer, based on available data.

A new member to this forum asked for some advice regarding a rebreather purchasing decision, which I endeavored to constructively respond with information that I felt would be understood by someone new to rebreathers. I therefore find it disappointing that you should selectively edit my advice and intimate that if my advice is followed, it will result in the enquirers demise.

With regards to CE marking, I felt I included sufficient caveats to clearly make the point that CE provides no absolute guarantees. However, in the absence of any other formal civilian rebreather test standard, it does provide assurance that the rebreather has met a minimum performance standard. In particular, the original query concerned canisters used in cold water. From memory (I'll need to confirm), CE harmonised standard EN14143 un-manned canister testing is conducted in water at 4°C at a CO2 injection rate of 1.6 l/min, at a breathing rate of 40RMV (2 lt tidal volume) using humidified gas at body temperature. Therefore, regardless of axial or radial, the canister, or more to the point, the whole breathing loop because the management of water can play a significant role on canister duration and gas flow resistance, has been tested in cold water typical of the environment in which the original enquirer intends to dive. In contrast, your response to my post was to suggest that CE testing of underwater life support is of little or no value based upon unrelated examples of medical implants. As I mentioned, CE marking offers no guarantees, however if a rebreather has been subject to CE testing, the enquirer will know, with confidence, the cold water maximum canister duration based upon empirical testing regardless of what type of canister type it is. Empirical canister duration test data is safety critical information that needs to be understood and complied with when diving in cold water.

Your effort to collate rebreather performance test data is a worthy endeavor. To use your words "that is why I place so much emphasis on actual numbers..." but as you correctly pointed out in another post on this subject "reports/numbers can be confusing at times" and never more so than when it comes to trying to make sense of different canister performance data. As a rebreather novice, what chance has someone new the technology have in interpreting such data? Very little I suggest. This is why I felt that in terms of practical constructive advice, despite the nuances between axial and radial designs, recommending the purchase of a rebreather that has been subjected to cold water testing was far more important than the canister type.

Let's consider someone who based upon your intimation that CE testing of underwater life support is of little or no importance because to use your phrase, "it is the best way to purchase a ticket to heaven", this person who lives and dives in an arctic environment purchases a non CE marked rebreather that has not been subjected to cold water empirical testing. Who now is at greater potential risk when diving in 4°C, a diver with no cold water canister duration test data and so subjectively makes up the canister duration or a diver with a CE marked rebreather who complies with the manufacturers cold water canister duration recommendations? Again to use your words "that is why I place so much emphasis on actual numbers..", CE testing provides those numbers and therefore I would have thought fulfills your self declared emphasis upon the importance of such numbers, which can only be derived from empirical testing. EN14143 is the only international civilian rebreather standard that provides such data. I therefore struggle with the apparent contradiction regarding your emphasis on numbers to make an informed decision and your post regarding CE harmonised rebreather standard EN14143, which again to make the point, is presently the only civilian international rebreather standard that provides the data you seek!

Debating the so called "safety" merits of one canister type over another offers the enquirer in my opinion nothing of meaningful practical value; define "safe" and just as importantly define "unsafe". I've spent long enough in rebreather development and in the lab witnessing canister duration runs over the last 15 years to come to appreciate that to consider one canister design type to be "safer" compared to another canister design type is in practical terms a meaningless academic debate unless the breathing loop in which the canisters are embedded and the test conditions are precisely controlled and standardised, which is often not the case when making generalised comparisons with what is on the market. Even if it were so, to then define one as "safer" compared to another is quite meaningless in my opinion because "safe" and "unsafe" have no clear definition. Safe is not a black and white line. One canister may perform better than another under certain test conditions; this does not necessarily correlate with one being "safer" compared to another, particularly because the conditions of "real world" use are infinitely variable. What is of tangible meaning to someone starting from a potentially low rebreather knowledge base is that a rebreather has been independently tested in accordance with an internationally agreed standard and so meets a minimum agreed performance criteria and that there is clear manufacturers maximum canister duration guidance based upon empirical cold water testing, which reflects the enquirers intended condition of use.

As I stated in my original post, "in no way do I propose that this standard represents the pinnacle in rebreather standards nor does it guarantee you will get a great performing rebreather". However to ensure our safety, society accepts and expects safety related legislation to govern consumer products and services, e.g. domestic electrical appliances, medicines, food, water, restaurant kitchen cleanliness, civil construction etc. Surely then is it reasonable that the same level of consumer protection is applied to rebreathers, which after all are underwater life support equipment. Indeed it can be argued that failing to impose a minimum standard is a dereliction of duty by national / international bodies charged with the responsibility of protecting the public from poorly designed and manufactured product.

With the many complex engineering issues associated with underwater life support systems, as an initial effort at defining minimum standards for rebreathers sold within Europe, it was inevitable that certain aspects of EN14143 would be subject to review and future amendment. This said, the European rebreather standard has set the international benchmark against which manufacturers globally are now measured. As a consequence the standard of sport rebreather design, production quality control and performance has been raised and this has and will continue to make a contribution to rebreather diving safety.

To conclude then, we as seasoned rebreather divers who engage publically on the web have a responsibility to provide safe considered advice to those new to rebreather diving regardless of our personal opinions and so I will leave the forum membership and the original enquirer to decide who has tried to offer such advice in this instance.

Rgds Paul
 
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A new member to this forum asked for some advice regarding a rebreather purchasing decision, which I endeavored to constructively respond to with information that I felt would be understood by someone new to rebreathers. I therefore find it disappointing that you should selectively edit my advice and intimate that if my advice is followed, it will result in the enquirers demise.

With regards to CE marking, I felt I included sufficient caveats to clearly make the point that CE provides no absolute guarantees. However, in the absence of any other formal civilian rebreather test standard, it does provide assurance that the rebreather has met a minimum performance standard. In particular, the original query concerned canisters used in cold water. From memory (I***8217;ll need to confirm), CE harmonised standard EN14143 un-manned canister testing is conducted in water at 4°C at a CO2 injection rate of 1.6 l/min, at a breathing rate of 40RMV (2 lt tidal volume) using humidified gas at body temperature. Therefore, regardless of axial or radial, the canister, or more to the point, the whole breathing loop because the management of water can play a significant role on canister duration and gas flow resistance, has been tested in cold water typical of the environment in which the original enquirer intends to dive. In contrast, your response to my post was to suggest that CE testing of underwater life support is of little or no value based upon unrelated examples medical implants. As I mentioned, CE marking offers no guarantees, however if a rebreather has been subject to CE testing, the enquirer will know, with confidence, the cold water maximum canister duration based upon empirical testing regardless of what type of canister type it is. Empirical canister duration test data is safety critical information that needs to be understood and complied with when diving in cold water.

Your effort to collate rebreather performance test data is a worthy endeavor. To use your words ***8220;that is why I place so much emphasis on actual numbers...***8221; but as you correctly pointed out in another post on this subject ***8220;reports/numbers can be confusing at times***8221; and never more so than when it comes to trying to make sense of different canister performance data. As a ***8216;rebreather novice***8217; what chance has someone new the technology have in interpreting such data? Very little I suggest. This is why I felt that in terms of practical constructive advice, despite the nuances between axial and radial designs, recommending the purchase of a rebreather that has been subjected to cold water testing was far more important than the canister type.

Let***8217;s consider someone who based upon your intimation that CE testing of underwater life support is of little or no importance because to use your phrase, ***8220;it is the best way to purchase a ticket to heaven***8221;, this person who lives and dives in an arctic environment purchases a non CE marked rebreather that has not been subjected to cold water empirical testing. Who now is at greater potential risk when diving in 4°C, a diver with no cold water canister duration test data and so subjectively makes up the canister duration or a diver with a CE marked rebreather who complies with the manufacturers cold water canister duration recommendations? Again to use your words ***8220;that is why I place so much emphasis on actual numbers...***8221;, CE testing provides those numbers and therefore I would have thought fulfills your self declared emphasis upon the importance of such numbers, which can only be derived from empirical testing. EN14143 is the only international civilian rebreather standard that provides such data. I therefore struggle with the apparent contradiction regarding your emphasis on numbers to make an informed decision and your post regarding CE harmonised rebreather standard EN14143, which again to make the point, is presently the only civilian international rebreather standard that provides the data you seek!

Debating the so called ***8216;safety***8217; merits of one canister type over another offers the enquirer in my opinion nothing of meaningful practical value; define ***8216;safe***8217; and just as importantly define ***8216;unsafe***8217;. I***8217;ve spent long enough in rebreather development and in the lab witnessing canister duration runs over the last 15 years to come to appreciate that to consider one canister design type to be ***8216;safer***8217; compared to another canister design type is in practical terms a meaningless academic debate unless the breathing loop in which the canisters are embedded and the test conditions are precisely controlled and standardised, which is often not the case when making generalised comparisons with what is on the market. Even if it were so, to then define one as ***8216;safer***8217; compared to another is quite meaningless in my opinion because ***8216;safe***8217; and ***8216;unsafe***8217; have no clear definition. Safe is not a black and white line. One canister may perform better than another under certain test conditions; this does not necessarily correlate with one being ***8216;safer***8217; compared to another, particularly because the conditions of ***8216;real world***8217; use are infinitely variable. What is of tangible meaning to someone starting from a potentially low rebreather knowledge base is that a rebreather has been independently tested in accordance with an internationally agreed standard and so meets a minimum agreed performance criteria and that there is clear manufacturers maximum canister duration guidance based upon empirical cold water testing, which reflects the enquirers intended condition of use.

As I stated in my original post, ***8220;in no way do I propose that this standard represents the pinnacle in rebreather standards nor does it guarantee you will get a ***8216;great performing***8217; rebreather***8221;. However to ensure our safety, society accepts and expects safety related legislation to govern consumer products and services, e.g. domestic electrical appliances, medicines, food, water, restaurant kitchen cleanliness, civil construction etc. Surely then is it reasonable that the same level of consumer protection is applied to rebreathers, which after all are underwater life support equipment. Indeed it can be argued that failing to impose a minimum standard is a dereliction of duty by national / international bodies charged with the responsibility of protecting the public from poorly designed and manufactured product.

With the many complex engineering issues associated with underwater life support systems, as an initial effort at defining minimum standards for rebreathers sold within Europe, it was inevitable that certain aspects of EN14143 would be subject to review and future amendment. This said, the European rebreather standard has set the international benchmark against which manufacturers globally are now measured. As a consequence the standard of sport rebreather design, production quality control and performance has been raised and this has and will continue to make a contribution to rebreather diving safety.

To conclude then, we as seasoned rebreather divers who engage publically on the web have a responsibility to provide safe considered advice to those new to rebreather diving regardless of our personal opinions and so I will leave the forum membership and the original enquirer to decide who has tried to offer such advice in this instance.

Rgds Paul

Testing is absolutely essential at par with the publication of independent test results, in my opinion.

I am not saying otherwise or that testing (i.e. CE or NEDU or STANAG or NATO...) is unimportant.

Relying on a "CE" marking alone is a pathway to death - in my opinion - because a lot of women who have relied on such marks/system are now wearing unsafe/substandard implants in their body (PIP implants) and a lot of man and women are wearing unsafe metal-to-metal hip implants - this latter part is fact, not belief or opinion.

The CE marking system has shown not to work very well.
 
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Relying on a "CE" marking alone is a pathway to death - in my opinion - because a lot of women who have relied on such marks/system are now wearing unsafe/substandard implants in their body (PIP implants) and a lot of man and women are wearing unsafe metal-to-metal hip implants - this latter part is fact, not belief or opinion.

The CE marking system has shown not to work very well.

Some cons engaged in outright fraud, and they got through CE, so what's the point?

Aw, come on!

"Why do we ban murder, people still commit them?"

CE achieved a few things.

It reduced the number of "standards" manufacturers have to abide, reducing the cost to the states (and so, to us) of writing them, and to the manufacturers (and so, to us) of testing.

While not ridding us fraud, it limited the number of flawed products on the market. You spent quite some time on another thread arguing that the CE WOB limits were too high, now you're saying you'd rather have products that don't pass them?

It forced manufacturers to subject their products to the independent testing you demand.

And it gave us a baseline to compare things. The only reason your WOB/duration spreadsheet has any meaning is because they're all tested the same way. Even manufacturers based outside of the EU and don't (officially) sell there. Otherwise you'd have manufacturers measuring with 20L/min RMV in hot water, and we all know what that does.

I'll readily take the point that the CE rebreather standard, while based on the best data available at the time, is growing long in the tooth, and could do with an update.
I'll even accept that maybe it was hoisted too soon on a still small industry, dramatically raising the cost of entry, and hindering innovation.

But (especially for you ;) ) to say that "is has shown not work very well" is a bit ridiculous.

IMHO

Cheers,

Matthieu
 
Some cons engaged in outright fraud, and they got through CE, so what's the point?

Aw, come on!

"Why do we ban murder, people still commit them?"

CE achieved a few things.

It reduced the number of "standards" manufacturers have to abide, reducing the cost to the states (and so, to us) of writing them, and to the manufacturers (and so, to us) of testing.

While not ridding us fraud, it limited the number of flawed products on the market. You spent quite some time on another thread arguing that the CE WOB limits were too high, now you're saying you'd rather have products that don't pass them?

It forced manufacturers to subject their products to the independent testing you demand.

And it gave us a baseline to compare things. The only reason your WOB/duration spreadsheet has any meaning is because they're all tested the same way. Even manufacturers based outside of the EU and don't (officially) sell there. Otherwise you'd have manufacturers measuring with 20L/min RMV in hot water, and we all know what that does.

I'll readily take the point that the CE rebreather standard, while based on the best data available at the time, is growing long in the tooth, and could do with an update.
I'll even accept that maybe it was hoisted too soon on a still small industry, dramatically raising the cost of entry, and hindering innovation.

But (especially for you ;) ) to say that "is has shown not work very well" is a bit ridiculous.

IMHO

Cheers,

Matthieu

"CE" has a purpose and value, but "it has shown not to work very well" (that is fact).

That is the reason why it is being reformed, at least in respect of medical implants.

In respect to our application, how would I know what the WOB... is if the figure is not disclosed?

How would I know what the duration is, if the figure is not disclosed, and if it is disclosed, how would I know what it means if the test conditions are undisclosed (i.e. static depth vs. QinetiQ on ascent)?

How would I know if Radial is safer than Axial, if all there were on it was a "CE" mark and no further information?
 
sorry, these posts become stupid..

? did I say there was no reaction zone? euhh... don't think so

I think again something lost in the language: please rc get someone to translate our posts..


now I freely admit that maybe I do not know the subject... but have you, rc, ever done one test on a scrubber yourself?


I did have 'some' input in writing the scrubber time prediction algorithm used in our rebreathers :-)
Paul I contribute to improving the safety of CO2 sinks, you can check in the resource company Faser, if you can access these resources.
Know sinks have long been used divided into sections, in which the same methods of exchange and they have done it before.
Your contribution to a utility model in which the fragments I like others do not (sensitivity to flooding).

Again, uttered stream continuity equation, which is true.
Remains true as sinks remain filled with an sand. Which does not react with CO2.
Unfortunately, the actual canister is filled with soda lime and binding reaction takes time. Therefore, there is a reaction zone, the size of which depends on the velocity.

Therefore, the shape of the canister has an impact on the efficiency of absorption of CO2, which also is reflected in the contained tests.

greet rc

Espacenet - Bibliographic data

Espacenet - Bibliographic data

Espacenet - Mosaics
 
Just because something isn't perfect it doesn't mean it should be scrapped. I think the CE standard for rebreathers is too bureaucratic, and is too much for a relatively mall industry.

However, on the plus side, in Europe if a manufacturer gets sued then at least they can say 'well it met the standard' and then the cell manufacturers don't get scared and refuse to supply the industry.

Janos
 
Paul I contribute to improving the safety of CO2 sinks, you can check in the resource company Faser, if you can access these resources.
Know sinks have long been used divided into sections, in which the same methods of exchange and they have done it before.
Your contribution to a utility model in which the fragments I like others do not (sensitivity to flooding).

Again, uttered stream continuity equation, which is true....


please, again, rc, get a translator so I understand what you want to say

second, the patents you show don't mean anything: it is not because there is a patent on a specific shape of a canister, that it is actually better. For some you mention it is even the opposite!

there is so much rubbish published on the internet. Where are your test results? Show me that for the same volume of sorb, the wide entry surface (slow flow) canister has longer duration than the smaller entry surface (faster flow) canister (within practical limits as scrubbers are used at this moment)
 
Thank you Paul (R) and Paul (H) for professional answers.

To the rest... <sigh> ...



Dave

.

Do you think the ISC Axial scrubber is better than the ISC 8 lbs. Radial scrubber, or maybe indifferent between one and the other, or maybe the other way around?

Which one of the two do you dive and why?
 
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