If you're using helium at depth and the reg free flows, is it the cracking pressure that needs adjusting or has it to do with the size of the diaphragm or the design of the purge button/cover? First stage IP is correct. Or would it be a problem with the venturi vane?
great video sir ! just a question, what action shall a diver must take when it starts free flow under water ? can we stop it with the same method ? thank you in advance :)
Common misconception. You don't breath in more air, but you use less oxygen because you are using less "muscle" to actually pull in a breath. Poor breathing regulators require higher work of breath. Really, you are looking for something that almost breaths for you and you control your breathing rate (ideally it is similar to yago breathing in terms of depth and speed). Greg
Great video!
Best explanation and example on the net. Thanks!
Thank you I bought a regulator used without a manual and I thought it was broken.
Ohhhhhhh. THANK you.
Thank you for posting!
Awesome explanation. I have the c300 and love it
Great explanation 🤙
great explanation
Good info
If you're using helium at depth and the reg free flows, is it the cracking pressure that needs adjusting or has it to do with the size of the diaphragm or the design of the purge button/cover? First stage IP is correct. Or would it be a problem with the venturi vane?
great video sir ! just a question, what action shall a diver must take when it starts free flow under water ? can we stop it with the same method ?
thank you in advance :)
Yes, you can! it will stop with the same method, or you can block the mouthpiece
Wouldn't you breath in more air if it is set to free flow position?
Common misconception. You don't breath in more air, but you use less oxygen because you are using less "muscle" to actually pull in a breath. Poor breathing regulators require higher work of breath. Really, you are looking for something that almost breaths for you and you control your breathing rate (ideally it is similar to yago breathing in terms of depth and speed). Greg
I got it. Thank you. You don't get tired as fast = stay underwater longer.
Work of breathing increases causes oxygen consumption increase, think we re saying the same thing...