Diving Above Sea Level |
From inside the book
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Page 42
... ASCENT RATES Safety stops and slower ascent rates , in the context of dissolved gas models , are consistent with bubble mechanics , actually reducing bubble growth rate and free gas buildup because of greater effective pressure at the ...
... ASCENT RATES Safety stops and slower ascent rates , in the context of dissolved gas models , are consistent with bubble mechanics , actually reducing bubble growth rate and free gas buildup because of greater effective pressure at the ...
Page 44
... ascent rates were cut from 60 fsw / min to 30 fsw / min . Across a variety of decompression profiles , venous bubbles were greatly reduced by slower ascent rates and deeper initial decompression stops than required by the US Navy tables ...
... ascent rates were cut from 60 fsw / min to 30 fsw / min . Across a variety of decompression profiles , venous bubbles were greatly reduced by slower ascent rates and deeper initial decompression stops than required by the US Navy tables ...
Page 46
... slow tissues . The reduction in growth parameters far outstrips any ... ascent rate at depths in excess of 120 fsw . Procedures such as this , as ... rates afford additional advantages , but safety stops in the 2-4 minute range are easier ...
... slow tissues . The reduction in growth parameters far outstrips any ... ascent rate at depths in excess of 120 fsw . Procedures such as this , as ... rates afford additional advantages , but safety stops in the 2-4 minute range are easier ...
Common terms and phrases
120 minute compartment actual depth AIR CONSUMPTION RATES altitude diving atmospheric pressure bounce diving BOURDON AND OIL Boyle's law bubble growth bubble model Buhlmann buoyancy change calibrated capillary gauge readings computed critical ratios critical tensions decompression sickness decompression stops decrease dissolved gas buildup Dive tables diving activities exponential exposures extrapolation Faster compartments free phase fsw/min ft elevation gas phase gases Haldane half-times heliox hypothermia in-water recompression increasing level equivalent depth multi-day multiples of 1,000 Navy tables nitrogen non-stop limits non-stop time limits oil filled gauge oxygen partial pressures pressure at altitude procedures pulmonary Pulmonary edema rate at altitude reduced ambient pressure repetitive diving repetitive group safety stops salt water sea level equivalent sion slow ascent rates slower compartments specific density surface consumption rate surface rate TABLE AND METER temperature tissue compartment tissue tension trimix uptake and elimination venous gas emboli Wienke Wienke-Yount Workman