anarchista
New Member
well, people seem to forget that a radial is nothing more then a very wide, square shaped, limited hight axial that is bent in a curve so it becomes a tube
for the same volume of sorb, there is no difference in dwell time between the flat square and the curved square: shape does not change the dwell time, only volume does (that should be clear: if you double the surface, so half the hight, the speed of gas will be half (double surface), but the path to travel is also half (hight is half), so total travel time (= dwell time) is the same)
now everybody understands that if you compare 2 axials with the same total volume, but one less wide and higher, and the other one very wide, but not high, the first will have a bit higher WOB, the second will have a bit higher risk of preferential break-trough
there is no data that shows that, for the same volume of sorb, the duration of a radial is longer then the duration of an axial (I would even think the inverse, but no statistical data available either)
so all this fuss about what is better... it is not black and white
Posted a graph of Molecular material behaves like a dynamic binding capacity of CO2.
http://rebreathers.pl/forum/download.php?id=39
The binding capacity of the lower speed is a little higher is not a linear function.
Your argument has no basis for the same lime soda, a fine, or even more fat.
The long axis absorber is a good thick soda lime, because it has less breathing resistance, but less ability to bind CO2.
The short length of the absorber is convenient small soda lime has a higher breathing resistance and a greater ability to bind CO2.
see also this passage Molecular materials.
http://rebreathers.pl/forum/download.php?id=40
This your argument is also has no basis in the light of known knowledge.
greet rc