User manual SCUBAPRO-UWATEC SMART MICROBUBBLE MANAGEMENT
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SCUBAPRO-UWATEC SMART MICROBUBBLE MANAGEMENT (1835 ko)
Manual abstract: user guide SCUBAPRO-UWATEC SMART MICROBUBBLE MANAGEMENT
Detailed instructions for use are in the User's Guide.
[. . . ] The Smart COM displays a Remaining Bottom Time field, which is an estimate of the time remaining at the current depth until an ascent must be commenced. Once the ascent commences, the Smart COM has already included a prediction of the gas reserves necessary to ascend at the prescribed ascent rate and complete the necessary decompression stops. The baseline for the RBT is the "tank reserve value" which can be set via Smart TRAK in 50 PSI increments between 300 and 1750 PSI. An RBT of 0 means that if an ascent is commenced at that time and carried out at the correct ascent rate, respecting all decompression stops, the diver will be on the surface with approximately the tank reserve left in the tank. [. . . ] With the ZH-L8 ADT MB model, even at level 0, if workload is increased to 85W then on a 50ft (15m) dive the ascent time is increased from 30 to 60 mins.
The Smart PRO and Smart COM include the effect of temperature on the decompression schedule and display both the ambient and water temperature.
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Displays ambient temperature on the surface Measures and displays water temperature Includes temperature in decompression model Logs temperature (dive computer) Logs temperature (Smart TRAK)
T E M P E R AT U R E
The human body likes to maintain a core temperature of 98°F (37°C) and it has strategies such as shivering (involuntary muscle activity), to help maintain that temperature in cold situations. a reduction of blood flow to arms and legs in favor of the main organs, in an attempt to conserve body heat. Vasoconstriction does not take place right away since the diver starts with a uniformly warm body. As the diver ascends and starts offgassing, vasoconstriction is now limiting the process. So, diving in cold water makes the diver more susceptible to microbubble build up in the skin tissues and the possibility of "skin bends". The Smart computer is constantly monitoring and displaying the ambient temperature and is considering the temperature in the calculation of the decompression schedule, with the objective of minimising skin bends. For example, in normal dives, the spinal tissue is usually considered as the first tissue to affect the decompression schedule. However, when it comes to diving in cold water the Smart considers that the skin is the most important tissue. As a consequence, for a diver in cold water, the Smart may suggest a shorter no-decompression schedule, or in the case of a decompression dive, longer decompression stops.
A diver can view the whole temperature profile of a dive with the Smart TRAK software and a Personal Computer.
On a cold water dive a fixed model advises a 28 minute ascent, whereas the ZH-L8 ADT MB advises a 48 minute ascent. On the second dive the skin tissues, which were the leading tissues at the end of dive 1, are already relatively cold at the beginning of the dive so they have a slower speed. Hence the smaller difference in total ascent time.
SMART
MICROBUBBLE
MANAGEMENT
6
Smart can provide a visual warning to the diver to take an advisory level stop and reduce microbubble formation.
SMART REDUCES MICROBUBBLES
Divers who have long term exposure to microbubbles risk soft tissue damage. Examples of soft tissue include the brain, spinal tissues and the retina. Divers who are at risk include professional divers such as instructors and dive masters who typically do a lot of repetitive diving. Sport divers who conduct multiple repetitive dives over the duration of a dive holiday are also at risk from microbubble build up. Microbubbles don't produce visible symptoms and they can only be measured with the aid of a Doppler detecting device. This hand held device generates an ultrasonic signal that strikes a microbubble in a diver's body to reflect back a distinct chirping sound. The more "chirps" that can be heard on a recording, the greater the incidence of microbubbles in a diver. As part of a major study DAN Europe "Doppler Scanned" divers from a substantial sample of 1058 dives within 30 minutes of each dive's conclusion. The participating divers were average open water divers, who conducted typical open water dives with a large range of depths and bottom times. DAN Europe discovered that in the case of repetitive dives 67% of all divers produced High Grade Microbubbles. This correlates with the DAN Diving Accident Reports of the last 15 years that show a relatively higher frequency of Decompression Illness after repetitive dives.
Post dive Doppler monitoring of 1058 dives observed Doppler detectable microbubbles in 37% of all the monitored dives and 67% of the repetitive dives.
Not only was there a higher incidence of microbubbles in repetitive dives, but there was a higher incidence of high bubble grade microbubbles - level 2 or higher on the Spencer Scale.
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6 microbubble suppression levels User adjustable microbubble suppression Integrates level stops and deco stops Total time to ascend includes level stop data Warns if level stop is ignored "Cascading" microbubble levels Surface warning of reduced microbubble suppression levels
The above table demonstrates what sort of level stop profiles can occur for a diver on the second of two "repetitive" dives. The first dive is to 99 ft (30 m) for 16 minutes and the second dive follows a surface interval of 1 hour and 49 minutes and is also for 99 feet and 16 minutes. [. . . ] For more detailed storage and analysis, Smart TRAK, which is supplied with Smart, can assist divers to store data that's limited only by the capacity of a PC's hard drive. With a Smart dive computer sampling rate of 4 seconds, this program allows divers to analyze their dives with amazing detail. Smart TRAK is an invaluable tool for the diver to analyze their behavior and further improve their diving technique. The complete dive profile is displayed, as are any attention messages or alarms. [. . . ]
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