Dcap Decompression Software
Most Popular APA All Acronyms. DCAP - Decompression Computation and Analysis Program. Retrieved February 9, 2018, from Chicago All Acronyms. 'DCAP - Decompression Computation and Analysis Program'. (accessed February 9, 2018). Harvard All Acronyms.
DCAP - Decompression Computation and Analysis Program, All Acronyms, viewed February 9, 2018, MLA All Acronyms. 'DCAP - Decompression Computation and Analysis Program'. 9 February 2018. 9 February 2018. View Less Popular AMA All Acronyms. DCAP - Decompression Computation and Analysis Program. Published February 9, 2018.
Jul 26, 2007 They are part of the Nautilus Software I'm using but I can't. DCAP was Bill Hamilton's. And Yount produce decompression schedules that. DCAP MF11F6 Read more about settings, decompression, gradient, conservatism, dive and based.
Accessed February 9, 2018. CSE All Acronyms. DCAP - Decompression Computation and Analysis Program Internet; Feb 9, 2018 cited 2018 Feb 9. Available from: MHRA 'DCAP - Decompression Computation and Analysis Program', All Acronyms, 9 February 2018, accessed 9 February 2018 Bluebook All Acronyms, DCAP - Decompression Computation and Analysis Program (Feb.
9, 2018, 4:02 PM), available at CSE All Acronyms. DCAP - Decompression Computation and Analysis Program Internet; February 9, 2018 cited 2018 FEB 9.
Available from: https://www.allacronyms.com/DCAP/DecompressionComputationandAnalysisProgram.
Can anyone point me towards any info on these two models. They are part of the Nautilus Software I'm using but I can't find out much about them. Who uses them?
Dcap Decompression Software
Any data or studies? Any info at all would be cool, thanks Jason DCAP is a program created by Hamitlon Research (Decompression Computational Analysis Program) in that industrial strength program is the Hamilton-Workman-Schreiner-Kenyon neo-haldanean model that has been used for years and is the basis of the Key West Consortium tables that we used during the 1990s through today.
They are virtually bend free (meaning we have no reports of bends on them) they have reasonably deep cielings and realtively long shallow tails. The Hamilton-Kenyon Bubble Model (HKBM) is a melding of Haldane’s method of calculating inert gas uptake into theoretical compartments. Keller’s method of summing the partial pressures of multiple inert gas uptake is employed as well.
In the Hamilton-Kenyon Bubble Model, the half-times for each compartment are taken from the Hamilton-Kenyon decompression model that has years of reliable decompression schedule production. Rather than using Workman’s M-value methodology for determining allowable supersaturation for the theoretical compartments, Yount’s “tiny-bubble” method of calculating allowable compartment supersaturation is employed. Application of Yount’s method to Hamilton-Kenyon’s gas uptake model produces decompression schedules that have initial decompression stops up to twice as deep as conventional dissolved gas models and shallow decompression stop times that are significantly shorter than dissolved gas models call for. This combination of Hamilton, Kenyon, and Yount produce decompression schedules that algorithmically call for deep stops, rather than arbitrarily adding them into a dissolved gas model and having to “pay for it” at the shallow end of the schedule. The shallow stops are not arbitrarily shortened.
Dcap Decompression Software
You can find a complete discussion of these models and how NAUTILUS works in the NAUTILUS USER GUIDE available at this link. Select updates and then NAUTILUS USER MANUAL. Thanks for your time Joel, much appreciated. HKBM produces a lovely looking curve (if you know what I mean) looking forward to trying it in anger! The curve on HKBM is quite nice. It took me a little while when i first started to use it to get used to the deeper stops and going through back gas (OC) now with the CCR it's a no brainer. I run Cochran EMC20H units and it matches up nicely to the HKBM profiles.
I have probably run close to 300 or more personal dives on HKBM with very nice results.