Pelagian DCCCR Diver Final Exam – rev.1.1
Contents
1. 2007 Rebreather Lab Co LTD 30 Pelagian DCCCR Operations Manual Calibration Once you have installed the Alkaline 9 volt battery in scrubber lid and installed a minimum of two matched oxygen cells to lid trimmed appropriately you will need to calibrate these cells The PO2 display handset will need calibrating to atmospheric air at sea level and then verified in 100 oxygen Removing the 3 8 UNF port plug adjacent the handset cable gland will expose the trimming pots for each oxygen sensor Ensure that the display shows 0 21 47 0 01 in atmospheric air and 100 0 03 in pure oxygen An easy way to ensure the cells are exposed to pure oxygen is to put the Head in a small plastic bag with the O2 feed hose connected to the C2 inlet nipple Then slowly open the tank valve with the needle valve set to approx one half turn open Seal the bag with your hand but make sure it never inflates fully The oxygen entering will be at approx 0 3 0 5 LPM and this also needs to leave the bag to prevent a overly high reading due to elevated ambient pressure The reading should slowly climb and stop at 0 97 1 03 BAR If lower check for excessive leaks from the bag If still low analyze the O2 tank with a third party oxygen analyzer If necessary replace the Oxygen sensor s If the reading seems too high make sure the bag is not fully inflated Oxygen sensors have to be verified functional and linear before each dive If2. Automatic Diluent Valve The Automatic Diluent Valve ADV of the Pelagian DCCCR sits on the top of the Scrubber Head right above the oxygen sensors The main function the ADV is like the name suggest to automatically ad diluent gas to the CCR During the descent the volume of your counter lungs compress just as the wing and dive suit does As the ADV is triggered by pressure difference it will ad gas when the ambient water pressure is greater than the pressure inside the CCR breathing loop such as when you descend How much gas is added is governed by the depth of your inhalations and to some extent by your body position As you reach the target depth the ADV will at least in theory have done its job for that dive Providing you don t go deeper but stay at your max depth and then ascend no additional diluent should be needed Only more O2 Practically you will need more diluant gas after clearing your mask to verify the function of the oxygen sensors and to give more loop volume in the event of higher work load which should result in deeper inhalations Many seasoned CCR divers speak of ADV s like a nuisance They trigger when I don t want it and don t when I need it The perfect ADV would be activated by reading the divers mind but unfortunately it has yet to be invented An ADV works just the same as a familiar 22d stage regulator What can 2007 Rebreather Lab Co LTD 38 Pelagian DCCCR Operations Manual be done from a de
3. 210 1 2 210 0 48 240 1 1 240 0 42 270 1 300 0 33 Note For calculations for EAD NDL Deco assume set point is 0 1 BAR Po2 less than planned For CNS assume set point is 0 1 BAR Po2 higher than planned 2007 Rebreather Lab Co LTD 34 300 Pelagian DCCCR Operations Manual Section 6 Pelagian DCCCR Working Principle The DCCCR in Pelagian stands for Diver Controlled Closed Circuit Rebreather This means that the diver is responsible for injecting Oxygen into the breathing loop and monitoring the levels of O2 at all times though out the dive This is accomplished by adjusting a fine metering needle valve so that it is allowing a little bit less than the divers O2 consumption in to the loop at a continuous flow The diver can also push a manual over ride button to quickly bring up the level of oxygen without re adjusting the needle valve The O2 is fed to the exhaust side of the Scrubber to allow it to mix with the diver s exhaled breath The gas is then carried through the absorbent material that bonds with the CO2 produced by the diver s metabolism Then the scrubbed gas enters the Head section where two Oxygen sensors transmit the PO2 to a display The Pelagian DCCCR is used with two separate cylinders containing Oxygen and Diluent The Diluent can be air Trimix or Heliox The Diluent cylinder is connected to an Automatic Diluent Valve ADV which is opened
4. Insert the scrubber assembly into the centre section of the X plate together with the tanks each side The Oxygen bottle will take the right side and Diluent tank the left orientated as when you would be wearing the unit Do not tighten the cam bands yet 2007 Rebreather Lab Co LTD 26 Pelagian DCCCR Operations Manual Section 5 Pelagian Pre Dive Check Sequence The following set up steps must be done under the direct supervision of your course instructor and repeated at least 6 times or until you demonstrate mastery Add the left and right lungs to your back plate harness You should use the tri slide buckle to fix the lungs to the uppermost part of the harness webbing The base of the lungs are anchored to the back plate using bungee cord Allowing the lungs to move up or down will change the hydrostatic loading and to some extent affect the work of breathing WOB Once the lungs are anchored to the harness simply Velcro the loops on the wings to the harness The buoyancy wing and then the back plate complete with lungs may then be added The X plate assembly has two bolts welded in place 11 inches apart This distance is used by virtually all back plate manufacturers so your own back plate should fit straight on but of course there may be some that won t Advice from your instructor will help remediate any back plate incompatibility issues The Pelagian is a low profile unit and is ideally suited to a moderat
5. Pelagian DCCCR Operations Manual 7 2 Pelagian added in water skills 7 3 Pelagian Training Course Failure Responses Section 8 Closed Circuit Rebreather Dive Planning Bail out options Planning a fixed set point dive Section 9 Pelagian Post Dive Maintenance 9 1 Dis assembly 9 2 Cleaning 9 3 Storage ie remove battery if not using etc Section 10 General Pelagian Maintenance Module 1 final exam Appendix Charts Buhlmann Air Decompression Tables Equivalent Air Depth Chart 2007 Rebreather Lab Co LTD 5 Page 43 Page 44 Page 50 Page 51 Page 52 Page 56 Page xx Page xx Page xx Page 57 Page 58 Page 65 Page 67 Page 69 Pelagian DCCCR Operations Manual Preface Thanks for choosing the Pelagian DCCCR as your preferred vehicle for exploring the underwater world The objective for writing this text is to provide a comprehensive user manual bundled with all unit specific information needed to compliment a generic CCR course manual provided by your instructor As often as possible we have used practical examples to explain principles and functions It is our hope that this will make concepts come to life and serve to shorten the learning curve so that you will perceive your training and introduction to rebreather diving as being as enjoyable as possible and not solely as a necessary obstacle to pass before the fun begins No matter how comprehensive any manual may be learning to dive happens in the w
6. Pelagian DCCCR Operations Manual REBREATHER LAB Pelagian DCCCR Operations Manual 2007 Rebreather Lab www tebreatherlab com info rebreatherlab com 53 10 Moo 3 Bophut Koh Samui 84320 Surat Thani Thailand Phone 66 1 9326149 Fax 66 0 77 231389 2007 Rebreather Lab Co LTD 2 Pelagian DCCCR Operations Manual Using This Manual The manual is written from a practical perspective and follows the intended chronological order of first receiving the Pelagian kit assembling the Pelagian DCCCR for the first time preparing for diving on the unit skills and post dive maintenance AWARNING There are a number of critical safety warnings in the manual which appear in the same format as the text contained within this box These instructions MUST be followed FAILURE TO ADHERE TO THEM MAY CAUSE YOUR INJ URY OR DEATH Guidance Notes These notes will appear in italics and bold text 2007 Rebreather Lab Co LTD 1 Pelagian DCCCR Operations Manual Disclaimer The Pelagian DCCCR has NOT been tested for CE approval and has NOT been evaluated by any other third party testing facility The Pelagian DCCCR has been tested by Rebreather Lab during 18 months prior to its public release and found highly capable but as any data presented herein is highly subjective users should use caution and set their own personal limits for duration depth and operation Using a rebreather is a potentially life threatening
7. 14 Ascent Stress Po2 control venting loop gas before adding O2 Deflating wing dry suit early and keeping a larger loop volume will make it easier to prevent the ADV from triggering Practice until you can stop and hover one foot under the surface At the surface 1 inflate wing 2 close DSV 3 remove DSV 15 Metabolic Rate Swim at surface in relaxed pace while keeping set point at 0 8 BAR Po2 and adjust needle until no manual additions are needed Exit the water measure flow with flow meter and note result on check sheet Turn down needle slightly 16 Descent Prep Close DILUENT valve and purge DILUENT line pressure Flush loop 4 times with O2 Reduce loop volume Note loop FgO2 17 Proper Descent Descend with DILUENT valve closed while breathing from bail out Ad O2 to loop with manual bypass instead of inflating wing to control speed of descent 18 3rd Point Cell Linearity Check At the bottom max 6 m ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth or Diluent flush before going to loop 19 Set Point Swim With Needle Needle should be set so Po2 decays slowly Practice rolls and various body positions Note where ADV fires 20 Needle Valve Reference Reference the needle valve setting mechanically i e how many turns open from fully closed Close needle valve and re open to original setting Repeat with eyes closed FAILURE RESPONSES 21
8. 224 wing bladder or drysuit has its supply coming from a different tank You are now ready to check the integrity of the unit with both Positive and Negative Pressure testing Inflate the breathing loop using the diluent ADV valve Lay unit down on back Place a 1kg weight on breathing bag Leave unit inflated for 10 minutes Breathing bag should stay inflated If it does not suspect loop volume leak and check for cause An easy way to do this is to spray the inflated unit with a water and liquid soap solution while looking and listening for bubbling and leaks Remediate all leaks Left Photo shows Bubble trouble Right photo shows squeezed down loop for Negative Pressure test Next pull exhale lung overpressure dump valve to empty unit Place DSV in your mouth and open valve Breathe in through mouth and out through nose in an effort to drain all gas from the unit This may take a minute be patient Once unit is empty squeeze the breathing loop in several places before closing the DSV mouthpiece 2007 Rebreather Lab Co LTD 29 Pelagian DCCCR Operations Manual The purpose of Negative pressure test is to check if unit can maintain a vacuum Breathing hoses should stay deflated for at least 5 minutes If breathing hoses re inflate prematurely suspect a leak and inspect system fully to remedy AWARNING Failure to perform adequate leak tests may cause flooding leading to your drowning injury and death
9. DIL BAIL l l Scrubber filled properly rem time Battery test satisfactory Air calibration check with head off Hose check valves P con orings Tees amp plugs twist and tug Assembly satisfactory Tank pressure O2 DIL BAIL I O2 feed ADV Bail reg tested Gauges tested O2 DIL BAIL Positive pressure test satisfactory Negative pressure test satisfactory Flow rate surface set to Pre breathe 3 10 mins satisfactory Cells 0 97 1 03 PO2 after 4 purges Sensor readout at 6m in O2 Dive plan Dive 1 Dive 2 Dive 3 Dive 4 Dive 5 Dive 6 Remedial P G after surface interval Max depth Set point EAD set point 0 1 bar NDL on Buhlmann Air Table CNS set point 0 1 bar Theoretical tank duration Scrubber duration Actual bottom time RNT Pressure group Surface interval Signature Student Signature Instructor Notes Reference MOD 1 3 Tank FgO2 1 x 10 Loop mix Set point depth ATA EAD FgiN2 0 79 x MOD 10 10 O2 duration Volume x BAR Flow rate OC Bail Requirement TxPxSACx2 Scrubber dur 360 min tropical water 240 min cold water MassFlow increase 1 m deeper than surface PO2 Single dive min 24 hour 1 6 45 2 22 150 1 5 120 0 83 180 1 4 150 0 67 180 1 3 180 0 56
10. Pelagian DCCCR Operations Manual Battery life The battery life will vary primarily with use of display backlight and to a lesser degree with water temperature During tests batteries has lasted up to 20 days of continuous use with out back light Once the B letter is lit on the display screen the battery should be replaced When a battery runs low the Po2 will read higher than actual Always validate the read out when you see the B letter and end the dive on Bail out OC if necessary Re chargeable batteries should not be used Remove the battery if you will not dive for a longer period of time Lid and gasket Make sure the battery gasket is flat and NOT piling up between lid and the sockets sealing area When tightening the screws avoid excessive torque You only need to put a little pressure on the gasket so that the lid is level with the head rim AWARNING Forcing the battery can result in a short circuit rendering the display useless Failure to end a dive when the low battery warning is lit will render the display inaccurate Both can result in your injury or death 2007 Rebreather Lab Co LTD 23 Pelagian DCCCR Operations Manual Section 4 Preparing To Dive the Pelagian DCCCR Filling the Scrubber Canister Both screens and the inside of the scrubber tube are marked with dots alignment marks for easy alignment when filling the scrubber with co2 absorbent material The top screen comes with a c
11. a 1 stage regulator and a basic on off valve similar to a dry suit inflator valve allowing the diver to add oxygen manually when needed Some systems incorporate an orifice that slowly allows oxygen to trickle in to the loop thereby prolonging the intervals between manual injections The Pelagian DCCCR uses a fine metering needle valve and a manual add valve ECCR s use a set point controller and a solenoid valve to automatically add oxygen e Oxygen sensors Disregarding if a CCR is manually or electronically controlled the diver has to know his loop PO2 Oxygen sensors work like batteries in that they output a voltage that can be read by a display Common models output between 7 13 mV when exposed to air at sea level or 0 21 BAR PO2 A higher pressure of oxygen generates a higher milli volt reading The life span of an O2 sensor is limited and should generally be changed every year despite the fact that they may be rated longer by the manufacturer PPO2display A PO2 display is usually an LCD screen that gives the diver his read out or PO2 for each individual O2 sensor As it would take some mathematics to work out what mV means what PO2 this is done by the display As the output 2007 Rebreather Lab Co LTD 10 Pelagian DCCCR Operations Manual from the O2 sensor slowly decays over its life span the display has to be calibrated to ensure correct reading You will learn more about this procedure in a later section e Cylin
12. rebreather is its limited depth range of max 4 6 m as pure O2 gets toxic at greater depths Semi Closed Rebreather In order to allow deeper dives the O2 has to be diluted with another gas typically nitrogen A mixture of O2 and N2 Nitrox is fed into the breathing loop at a continuous flow but only the O2 is metabolized by the diver This presents a problem as the fresh 2007 Rebreather Lab Co LTD 7 Pelagian DCCCR Operations Manual N2 will gradually increase the volume of the breathing loop to the point the breathing bag bursts or more likely the diver looses his mouth piece To cater for this an over pressure relief valve is installed allowing a constant venting of the loop volume If it would be possible to separate the N2 from the O2 and only dump the N2 overboard this would be a nice little system As this is not possible what gets dumped is a mixture of both O2 and N2 Is short A semi closed rebreather let s you go deeper than an O2 rebreather but it is not as effective as a fully closed rebreather Closed circuit mixed gas rebreathers This type of rebreather carries minimum two separate cylinders one filled with oxygen and the other filled with air trimix heliox or any other suitable gas mixture with lower oxygen content This gas is usually referred to as the diluent gas as it is used to dilute the oxygen in order to allow deeper excursions Again determined by the way O2 is injected closed circuit mixed ga
13. 3 bars maybe be at increased risk of Hyperoxia CNS toxicity if a sudden drop to 40metres or deeper is performed Whenever the user makes a descent then close attention to the electronic po2 display must be maintained with an aim of maintaining lowering loop po2 as it rises or spikes during the descent careful use of the ADV will achieve this Boyles Law applies during the ascent also of course In practice the breathing Loop will compress during any descent and the next breath will simply trigger the ADV causing an influx of diluent lowering the Po2 this should not be relied upon to maintain breathability proper observation and dynamic loop optimization by the user should take precedence Hyperoxia can still occur if the Needle Valve is set to deliver excess oxygen or indeed the oxygen supply 1st stage regulator may malfunction causing the loop to increase po2 either quickly or insidiously slowly Guidance note The Pelagian Po2 display will show 1 when the loop Po2 goes above 2 0 bar If this figure is observed the user must not take their next breath from the loop All loop volume should be dumped via the Nose and the ADV used to supply a fresh breath Another equally viable option is simply Bail out to open circuit or switching to the BOV Bailout valve if installed Never breath a gas with an unknown po2 immediate unconsciousness may occur In contrast to the descent as the CCR user gets closer to the surface the loop volu
14. Pelagian DCCCR Operations Manual PELAGIAN DIVER CONTROLLED CLOSED CIRCUIT REBREATHER SYSTEMS MANUAL TABLE OF CONTENTS Disclaimer Page 2 Contents Page 4 Preface Page 6 Section 1 A Primer On Rebreathers Page 7 Section 2 Closed Circuit Rebreather Physiology Page 12 Section 3 Initial Assembly of the Pelagian DCCCR Page 18 3 1 Included components Page 19 3 2 Additional required components Page 20 3 3 Component preparation Page 21 3 4 Sensor Preparation Page 21 3 5 Loop O Rings Page 22 3 6 Battery and Battery Housing Page 22 Section 4 Preparing To Dive the Pelagian DCCCR Page 24 4 1 Assembling and packing the scrubber Page 25 4 2 Cylinder addition Page 26 4 3 Counterlungs Page 27 4 4 X Plate Page 28 4 5 Mouthpiece Breathing Hose assembly Page 29 Section5 Pelagian Pre Dive Check Sequence 5 1 Calibration Page 31 5 2 ADV Page 31 5 3 PPO2 Displays Page 32 5 4 Buoyancy device backplate harness Page 33 5 5 Diluent and Oxygen First Stage assembly Page 28 5 6 Oxygen flow rate set up Page 29 5 7 Loop integrity Pressure tests Page 29 5 8 Bailout considerations Page 33 5 9 RebreatherLab Pelagian DCCCR dive planning amp pre dive safety check sheet Page 34 Section 6 Pelagian DCCCR Working Principle 6 1 Instant Cell Validation Page 36 40 6 2 Oxygen Addition Valve Page 38 6 3 Oxygen Addition Valve Manual Bypass Page 39 Section 7 Diving the Pelagian DCCCR Page 43 7 1 Training Course Skills Matrix Page 44 2007 Rebreather Lab Co LTD 4
15. activity and a full understanding of its working principle and operation is absolutely necessary prior to use Even with proper training there is no such thing as guaranteed safety It must be understood that any mechanical or electronic device will fail at one point or another and typically when least desired or expected A large part of your mandatory training course will be devoted to proper failure detection and appropriate response In order to gain access to a Pelagian DCCCR you will be required to sign numerous documents containing a lot of legal print The bottom line is that you are required to assume full responsibility of any outcome diving the Pelagian DCCCR The Pelagian DCCCR is sold as a kit of parts that can only function for life support after additional equipment has been added Before each dive it will be assembled tested and deemed functional or not by YOU the diver Out of the additional components not included with the kit the most crucial is your brain Without your brain the Pelagian is simply a pile of parts that are guaranteed NOT to function at all Using the Pelagian DCCCR kit can result in anything between a pleasant dive all the way to YOUR injury or death The only one responsible for the outcome is YOU the diver If you are not willing to accept these terms you should stop right now Cancel your course and return the Pelagian DCCCR kit regardless of financial consequence This will come across very harsh and certainl
16. and Po2 control Stress venting loop gas before adding O2 and deflating wing early on as keeping loop volume slightly over pressurized will prevent ADV from triggering Student briefly stops 0 5 m under the surface to demonstrate 10096 buoyancy control 16 Safety stop 5 min at 6 meters 17 Surface Open Water Dive 3 This is the first OW dive using the needle valve Use flow chart to work out what surface flow makes up for metabolic rate of diver at rest at max depth Set flow and reinforce taking a mechanical reference of the setting Entry Enter water breathing from bail out reg 100 02 in the loop DILUENT tank valve closed and DILUENT line pressure purged 2 Descent Descend to 6m while breathing the OC bail out Ad O2 to loop to arrest descent speed 3 3rd Point Cell Linearity Check Ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth before going to loop Open DILUENT and bring down Po2 to 0 7 BAR Po2 4 Bubble Check 5 Descent to max depth see general CCR standards 6 Setpoint Bring loop to set point 1 2 BAR Po2 while maintaining depth 7 10 minute swim at constant depth Monitor Po2 continuously Evaluate needle setting Stress manual adjustments to get back to set point before trying a new needle setting Watch out for depth deviations and mask clearing as it can easily confuse 8 Instant Cell Validation 9 10 minute swim at constant depth Use a 10 m shallowe
17. fix any problems related to off board Bail out tanks All CCR divers should take at least one cylinder of bottom mix to be used during an open circuit ascent in addition to any necessary decompression gases During no decompression users are advised to carry an Nitrox mix 2007 Rebreather Lab Co LTD 51 Pelagian DCCCR Operations Manual optimised for the maximum depth The bail out tank must be of a suitable size to allow the user to easily reach the surface When calculating Bail out tank volumes it would be wise to use a higher than normal RMV upto 3O0litres per min for calculations Guidance note carrying suitable bail out reserves for use by a buddy in need is a Grey Area in CCR training While in an ideal world we would all be completely self sufficient remember that both yourself and buddy are not likely suited to breathe water 2 second stages on any Bail out tanks is worthy of consideration unless you plan on beating off any out of air divers that approach you Planning a fixed set point dive 8 DecoChek 2 11 New Dive Lo ey ss File Edit Ascent Help on e e e co on N CO oo Oo ce 00 0 0 e Using software to plan a CCR dive is straightforward The example above uses a set point of 1 3 po2 On leaving maximum depth manual CCR users should aim to keep the set point around 1 Obar so as not to violate the ascent ceiling On arriving at the ascent ceiling i e the first stop users must st
18. further breaths and balance out after the 4 breath to present the Po2 value in a more homogenized state If you need to bring the Po2 up a lot and quick you should feed one short burst then take a fast breath then ad one more burst and repeat as needed The idea is to distribute the larger amount of oxygen evenly though out the loop rather than using long bursts from the manual bypass valve in order to prevent spikes of high Po2 Anytime you add oxygen with the manual bypass you should watch the displays Other than giving your current Po2 they will tell you a lot about the condition of your O2 sensors The last decimal should always be dynamic as it registers the small pressure variations between inhalation and exhalation The first and second breaths after manually adding will likely bring the Po2 higher than your set point and this gives you the opportunity to confirm that the sensors in fact CAN produce a Po2 higher than set point Take note of any static behavior in the last decimal that could indicate a voltage limited O2 sensor In the event the Po2 is too high there are two rationales for bringing it back to set point POZ is less than 1 6 BAR Exhale from nose to bring down the loop volume The ADV will bring fresh DIL gas into the loop with next inhalation which will lower the PO2 2007 Rebreather Lab Co LTD 36 Pelagian DCCCR Operations Manual PO2 is higher than 1 6 BAR Bail out to OC then flush the loop while alternati
19. high PO2 B In the event you ad too much oxygen how do you bring the PO2 down T If you are at 20 meters running a 1 2 set point what is the of oxygen in the breathing loop 8 Why would a pure oxygen rebreather be unsuitable for recreational diving 2007 Rebreather Lab Co LTD 58 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam 9 10 11 12 13 14 15 You are at 20 meters Your buoyancy is neutral and suddenly it becomes very positive List the possible reasons and your actions in order of importance You are at 20 meters Your buoyancy is neutral and suddenly it becomes very negative List the possible reasons and your actions in order of importance You are running a 1 3 set point What are the values of oxygen in the breathing loop at these following depths 38 meters 26 meters 16 meters 12 meters 6 meters You plan a shallow 9 meter dive on a set point of 1 5 not recommended Your scrubber material is fresh and the battery is newly replaced What will be the limiting factor of the dive If the set point of the above dive was 1 1 what would be the limiting factor With how many fuel cells oxygen sensors is the Pelagian DCCCR used If the battery for your PO2 display for one fuel cell fails during a dive what will happen to the PO2 display for the other cell s 2007 Rebreather Lab Co LTD 59 16 17 18 19 20 21 22 23 24
20. physiological processes involved It is recommended that Diluent switches are not incorporated into dive plans or attempted during actual dives Should the diver need to change diluent while ascending then careful consideration should be given to the END changes that could occur with Diluents containing diminishing Helium fractions The old Open Circuit practice of removing or minimising Helium in decompression gases is to be avoided on CCR and OC but don t add ridiculous Helium concentrations either in an attempt to look fashionable Helium is far less forgiving after ascent speed violations and excessive Helium use can complicate OC bail out choices with possibly dire consequences Guidance note It is you the diver that will face the difficulties and dangers of taking insufficient bail out reserves often alone All the internet advice and pub banter in the world will not help you underwater Remember that the traditional advice about going semi closed and open loop etc ignores the potential consequences of a catastrophic co2 hit Regarding Carbon Dioxide absorbent If in doubt throw it out Remember also that while underwater If in doubt Bail Out and oh yes If in doubt Bail Out That is some free advice that might save your life 2007 Rebreather Lab Co LTD 55 Pelagian DCCCR Operations Manual Section 9 Post Dive Maintenance After diving it is normal for condensation to be present in the head
21. progress to using constant po2 tables generated by software or wrist worn dive computers allowing this feature Guidance note Users following a fixed po2 dive plan should strive to keeping their inspired po2 at 0 1 above the setpoint used by the table For new users using open circuit air tables to plan a dive and wishing to get some decompression advantage for using a constant po2 the calculation for finding your EAD equivalent air depth formula is listed below Metric EAD P Po2 0 79 1 x 10 or Imperial EAD P Po2 0 79 1 x 33 P Pressure in ata s target depth in metres divided by 10 Examples with an o2 setpoint of 1 3 are as follows target depth 32msw 106fsw 2007 Rebreather Lab Co LTD 50 Pelagian DCCCR Operations Manual 4 2 32msw as ata 1 3 po2 0 79 1x 10 27 metres EAD 4 2 106fsw as ata 1 3 po2 0 79 1 x 33 89 feet EAD Use the EAD figure with an air table of your choice Remember to maintain the po2 used during the calculation Guidance note Desired Po2 should be maintained as closely as possible during the time at maximum depth During the ascent manual CCR users should aim to keep set point as close to 1 0 bar as possible before bringing set point back to desired level during the decompression safety stop phase BAIL OUT Let us spend some discussing Bail out options Numerous CCR divers have died because they either did not take sufficient bail out volumes or they dith
22. reg ADV leak Think 1st or 2nd stage failure Close Diluent cylinder valve Ascend Prepare Off board Bail out regulator Buddy signals OOA offer off board Bail Out regulator Abort Unconscious CCR Diver found BOV present Activate BOV if no BOV then check Po2 display Add O2 manually or depress ADV to stabilise PO2 as necessary Stimulate diver assume diver IS breathing Re track to up line ascend Do not endanger self Convulsing diver gain contact by grasping casualties arm or hand Heading for shallower water will lower possibly excessive loop po2 Monitor loop volume during ascent to control buoyancy Rock DSV downwards to dump excess loop gas open drysuit over pressure valve and or monitor BCD inflator Re track to up line if possible watch Deco obligations ascend Do not endanger self 2007 Rebreather Lab Co LTD 49 Pelagian DCCCR Operations Manual Section 8 CCR Dive Planning Closed Circuit Rebreathers give us theoretical gas durations only dreamt about by our Open Circuit cousins This can be a blessing and a curse as CCR divers can routinely plan and perform gas hungry dives that push the limits of their physiology often with little thought to the open circuit bail out considerations and support logistics either The human body is not a machine and generally only operates without problem within a fairly slim set of parameters with regard to oxygen nitrogen co2 and thermal exposures and insufficient bail out co
23. such a gauge 2007 Rebreather Lab Co LTD 66 Pelagian DCCCR Operations Manual Buhlmann Air Decompression Tables A oO N CO 01 0 h2 ANA e S2 CQ N c1 N N C1 N c1 BRIN IN oi oo N Kl gua EE Hiei dM UN UR 60 20 nt A 8 8 10 0 7 0 7 0 8 0 9 1 8 4 T TABLE 2 c e eg Enter here from TABLE 1 using RG from previous B dive Numbers are time in minutes spent 10 ves on the Take RG at end of surface interval to Table 3 V 2007 Rebreather Lab Co LTD 67 Pelagian DCCCR Operations Manual RE TABLE 3 AIR 21 Oxygen Next Dived Depth in metres amp feet Sug Bed Fe odd d bel ele el iiid id d E AE A 25 19 16 14 12 11 10 9 8 7 7 B 37 25 20 17 15 13 12 11 10 9 8 Entr EA C 55 37 29 25 22 20 18 16 14 12 11 10 D 81 57 41 33 28 24 21 19 17 15 14 13 ERR 5 AR OJ 1 M EE 4 7 D Time limits for various oxygen partial pressures 2007 Rebreather Lab Co LTD 68 Pelagian DCCCR Operations Manual EQUIVALENT AIR DEPTH CHART PERCENTAGE OXYGEN IN MIX EQUIVALENT AIR DEPTHS IN METRES 21 22 23 24 Ee g 2 72 1 faa 11 11 30 10 9 9 9 9 CSS GA MOO GGG OOA 4 14 13 43 13 12 i2 H i2 11 11 44 10 10 10 9 9 9 9 8 gts 15 14 1a 14 13 13 8 2 12
24. that you can close the loop to prevent water intrusion while surface swimming Some models are called Bail Out Valve BOV or Open Circuit Closed Circuit OC CC Valve with the additional function to let you switch from the CCR loop to Open Circuit with out removing the mouth piece thus bypassing the whole rebreather in the event of a problem s Breathing Hose The breathing hose connects the DSV to the breathing bag or counter lungs and the exhale side of the hose is also feeding to the absorbent canister Counter lung s A rebreather usually has either back mounted or front mounted counter lungs If a diver is in a horizontal swimming position back mounted counter lungs tend to give an easy exhalation but a restricted inhalation due to the hydrostatic pressure difference in relation to the divers own lungs Front mounted counter lungs give a slight resistance exhaling and low resistance inhaling as they are placed below the divers own lungs The Pelagian DCCCR 2007 Rebreather Lab Co LTD 9 Pelagian DCCCR Operations Manual is currently the only rebreather with side mounted counter lungs keeping the breathing bags at the same depth as the diver s lungs thus giving equally low resistance on inhalation and exhalation e Absorbent canister Your exhaled breath travels from one side of the breathing hose either via one of the counter lungs or directly to the absorbent canister if the rebreather only has one counter lu
25. you remove all threads The rear end of cell 1 has to be partially cut due to space limitations Make a cut from the top placed parallel to the three Molex pins End this cut where the tapered part of the cell body begins Now lay the cell down on its side and cut from where the tapered part of the cell body begins toward the end of your previous cut 2007 Rebreather Lab Co LTD 20 Pelagian DCCCR Operations Manual ERU Fig 1 Cut the threads on all cells Fig 2 Cell one 1 rear cut Fig 3 Cell one 2 rear cut Fig 4 Front on all cells Fig 5 Cell one after rear cut Fig 6 Cell o one in socket When done you will have removed a bit less than half of the 1 cell rear ring that surrounds the Molex connection Study the pictures before cutting and ask your instructor if unsure You are now ready to install the cells in the Head Connect the Molex plug and carefully lower the cells into their respective sockets without bending the wires more than necessary Avoid removing the cells if not needed When it is time to replace the cells make sure to always bend the wires the same way to avoid breaking the copper strands Remove the cell by inserting a pen or similar under the cell body and lift The third cell connected to a computer need not be trimmed for the sake of using the Instant Sensor Validation as the computers response time would anyway be too slow However the secondary advantage with DILUENT injection over the cell membrane i
26. 12 32 t2 14 14 fao 10 10 9 9 16 16 15 45 15 14 t 14 13 13 13 12 12 12 11 1 11 10 10 10 az 17_ 16 16 16 15 t5 45 14 14 14 13 13 13 t2 12 12 1 1 a 6 18 17 az 17 16 t6 6 15 15 14 14 14 13 13 43 12 12 12 1 19 19 18 48 18 17 t7 16 16 t6 15 as 15 14 14 13 13 13 12 12 20 20 19 19 18 18 t amp tz t7 t7 16 16 15 15 15 44 14 14 13 48 21 21 20 20 19 t9 t9 8 t 17 17 7 16 t6 16 48 15 14 14 44 22 22 21 24 20 20 20 19 19 t8 18 18 t7 17 16 46 16 15 15 14 23 23 22 22 21 21 20 20 20 19 19 18 18 t8 t7 17 16 16 15 45 24 24 23 23 22 22 24 a4 24 20 20 19 19 18 18 18 17 17 16 t6 25 25 24 24 23 23 22 22 21 21 21 20 20 19 19 t8 18 17 t7 17 H5 2 25 25 24 24 23 23 22 22 21 21 21 20 20 t9 19 18 18 47 27 27 __ 26 26 25 25 24 24 23 28 22 22 21 21 20 20 20 19 19 18 25 28 27 27 26 26 25 25 24 24 23 28 22 22 21 24 20 20 19 19 J 22 29 28 28 27 27 26 26 25 25 24 24 23 23 22 22 21 21 20 20 30 29 29 28 28 27 27 26 26 25 25 24 24 23
27. 25 26 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam Can you continue the dive Describe your actions When is it recommended to change the battery Why is it recommended NOT to change all fuel cells on the same date A Describe the complete recommended procedure for calibrating the Pelagian DCCCR before the dive B Describe an easy way to with reasonable accuracy validate sensor linearity between 0 21 1 6 BAR PO2 and to detect a current limited sensor You start to experience breathing resistance 20 minutes into the dive on a Pelagian DCCCR with newly changed scrubber material What would be the likely cause What other indications would exist What are your actions What CAN be the indicators of an exhausted CO2 absorbent canister while diving What is the medical term for increased level of CO2 If you surface from a dive switch your PO2 displays and O2 cylinder off and swim 100 meters to an anchored boat while breathing off the loop what could happen What is the medical term for this List two physical benefits of rebreather diving compared with open circuit diving Explain the differences between Semi Closed Circuit and Closed Circuit rebreathers A Semi Closed Circuit B Closed Circuit 2007 Rebreather Lab Co LTD 60 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam 27 Sketch the mechanical layout of a Pelagian DCCCR Be detailed Make sure to
28. 28 22 22 21 21 20 31 30 _ 30 29 29 28 28 27 27 26 26 26 25 24 24 28 23 22 22 jo s1__ 31 30 30 29 29 28 28 27 27 26 26 25 25 24 23 23 33_ 32_ 32 84 31 30 30 29 29 28 28 a7 26 26 25 25 22 34_ 33_ 33 2 32 31 31 30 30 29 28 28 27 27 26 26 25 q35_ 34_ 34 33 33 32 32 34 30 30 29 29 28 28 27 26 36_ 35__ 35 34 34 33 33 32 31 31 30 30 29 29 28 37_ 36__ 36 85 35 34 33 33 32 32 31 30 so 2o jos 37__ 37 36 36 35 34 3a 33 33 322 31 313 s9_ 38_ 38 87 37 36 35 35 34 33 33 322 2 4 30 39 38 37 37 36 36 35 34 32 33 j 40 40 30 38 39 37 35 39 385 42 4 41 40 39 39 38 37 37 36 8 4 42 42 41 40 40 39 8 39 T 4qwg ye fe H H ey fo FP 2007 Rebreather Lab Co LTD 69 Pelagian DCCCR Operations Manual Pelagian Unit used on 150metre dives during an Expedition to HMS Victoria in Lebanon Scrubber is attached directly to Diluent Bail out twinset alongside 5litre oxygen cylinder Additional decompression tanks worn for open circuit bail out decompression 2007 Rebreather Lab Co LTD 70
29. 36 months but the higher the Po2 the faster they get consumed Prudent CCR divers change their cells every year and stagger the replacement as to avoid all cells giving up on the same dive Occasionally a bad batch of cells sneak through quality control and if you buy all cells on the same date you will at least statistically run a higher chance of getting all bad cells It has happened a cell is DOA and some times they might seem ok for a few days only to go belly up after some dives The moral of the story is to use caution and the provided Instant Cell Validation frequently Providing the output is within range you should let the cell acclimatize over night before diving Record the serial number of the cell and the mV for future reference Mark cells with number 1 and 2 If you take a look at the interiors of the scrubber head you will see the sensor mounting slots The space is tight and the sensors need some trimming before they can be installed If you take a closer look you will also find a hole ending up in front of each cell socket This is where the diluent gas will be injected In order for the Instant Cell Validation to work you will have to remove the o ring and cut the threaded section of each cell as it would otherwise block the injected flow of diluent Use a fine toothed hack saw or similar to saw off the threads Do not use a knife as it can result in a cracked cell body Make sure to put the saw blade flush to the cell body to make sure
30. Buddy Bail Pass bail out to buddy Switch donor receiver 22 Bail Out Ascent Bail out shut DILUENT tank valve ascend while venting loop from dump valve or DSV 23 Cylinder Shut Down Gradually build up speed Readjust harness or re position cylinder valves for easy reach if needed 24 SCR Mode Shut O2 tank valve Swim while exhaling every 2nd breath from nose and monitor Po2 display continuously 25 Open Loop Mode Inhale from mouth and exhale from nose Stress vertical body position to reduce WOB 26 O2 Leak Shut O2 tank valve keep O2 bypass depressed to simulate leak maintain set point by feathering O2 tank valve 27 ADV Leak Flash card ADV Leak Instructor purges students ADV student shuts down DILUENT Flash card high O2 Student exhales from nose and feather DILUENT cylinder briefly to bring down Po2 2007 Rebreather Lab Co LTD 44 Pelagian DCCCR Operations Manual 28 CCR Removal And Replace Shallow water IMPORTANT The DILUENT valve has to be shut and line pressure purged BEFORE skill is practiced to prevent the ADV from triggering which would make the unit positive The needle valve has to be closed BEFORE skill is practiced to prevent Po2 build up Practice skill while breathing from OC bail out Flush DILUENT and check Po2 before breathing from the loop 29 SMB Deployment Technique will vary with type of SMB and reel However under no circumstance shall the SMB be inflated d
31. If you do this step properly and then close the DSV and descend to 6 m while breathing from your off board bail out regulator or BOV you will bring that known gas sample to a known depth and the result should be around 1 6 BAR Po2 which is quite a bit higher than your recommended set point of 1 2 BAR This should ensure that each dive is started with a confirmation that the sensors are linear from 0 21 to 16 BAR PO2 plus confirm that they are not current limited During the dive each time you manually add O2 with the bypass valve the Po2 momentarily over shoots the set point during the initial breaths before the added O2 mixes with the loop gas Pay attention as this also confirms that the sensors are able to produce a higher PO2 than set point Exactly how linear they are above the set point cannot be confirmed during the dive which reinforces the importance to always perform the 3 point linearity check in the beginning of each dive Your instructor will make sure you do your linearity checks properly and make frequent use of the instant cell validation during your training dives The Pelagian DCCCR together with these skills is a concept and a step towards making CCR diving safer Set Point Control or Confusion Unfortunately there are many new factors in CCR diving that can confuse the novice rebreather diver while trying to figure out needle valve settings manual O2 injections and ADV action Knowing a few situations may serve to reduce confusi
32. Manual AWARNING Failure to correctly adjust the ADV may lead to hyperoxia and or rapid change of buoyancy either of which can result in your injury or death The oxygen addition valve allows two means of supplying O2 to the unit A variable output needle valve allows a user definable amount of oxygen Take care not to over tighten the valve stem Even at fully closed the needle valve allows approximately 0 2lpm past to protect its sealing seat The manual addition button can be used to bypass the needle valve and will add a burst of oxygen with every depression The O2 addition button should be used by adding one short burst combined with 3 4 breathes to allow the oxygen to mix Then gerer PPO2 before adding more oxygen During your training course your instructor will advise how best to use the oxygen addition system The oxygen addition block has a standard low pressure quick release connector that connects directly to the O2 inlet nipple of the Scrubber Head The PPO2 display has a magnetic slide switch on the left side In the lowest position the handset is in standby mode off Moving the slide to the middle position will activate the display and show current PPO2 readings Moving the slider to the uppermost position will turn the handset backlight on A high quality alkaline battery should give approximately 30 hours of use Carrying a spare 17 battery and spare oxygen fuel cells will ensure that lost d
33. You intend to descend to 40 meters What will you need to do to maintain your PO2 at 1 2 50 You are at 40 meters and your PO2 display read 1 200 You intend to ascend to your safety stop and you have planned the dive with a set point of 1 2 What will you need to do through out the ascent to maintain your set point at 1 2 51 What is the meaning of keeping a minimum counter lung volume 52 What are the advantages with a minimum counter lung volume 2007 Rebreather Lab Co LTD 63 53 54 55 56 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam How can you dive your Pelagian DCCCR in semi closed mode and for what purpose would you do it Plan a dive to 30 meters for 15 minutes on a set point of 1 2 bar PO2 Your expected O2 consumption is 0 9 lpm You want the needle valve to give a surface equivalent O2 dosage of 0 7 lpm at max depth Your O2 cylinder is 2 7 liters and filled to 100 BAR Your anticipated SAC rate under stress is 30 Ipm Plan for a 5 min safety stop at 3m Show what surface flow rate you will set the needle to Show your CNS load EAD and end pressure group using B hlmann tables Show how many BAR of O2 you will theoretically consume and how much O2 you think you will actually use What size bail out cylinder will you carry Surface flow CNS EAD PG Theoretical O2 consumption Practical O2 consumption Bail out What dive planning tools could you use for the above
34. able tie to aid pulling upwards The bottom screen does not have a cable tie The stainless steel mesh sides should face the absorbent material sorb The scrubber tube also has a line indicating how deep the Head will seat once installed When properly filled the sorb and both screens will occupy the space between the bottom ledge and this line meaning the top screen should be level with the line Install the bottom screen flush to the scrubber bottom ledge and turn the scrubber up side down while holding the bottom screen in place Make sure the dot on the bottom of the screen and the dot on the bottom of the ledge are aligned Turn the scrubber upside up while keeping he bottom screen aligned Install the exhale tube in the bottom screen hole Pour a 3 of the scrubber Now install the top screen aligned it with the dot located just on top of the line Pinch the exhale tube towards the side of the scrubber tube while tapping the scrubber This will keep the exhale tube positioned while settling the sorb Make sure to avoid too much sideway motion on the scrubber The idea is to chock the sorb so it settles downwards Remove the top screen fill another third and repeat For the last third pour until the sorb is a few mm below the line Once the last third is packed and level install the top screen The top of the top screen should be exactly level with the alignment line in the scrubber tube You may have to add remove some sorb to get it r
35. ablise the set point to that used to calculate the table To offset any set point violations made during the ascent users may wish to add a minute or two to the 1 deco stop time Guidance note Ascending on a manual CCR can cause large set point fluctuations with new users A useful option to minimize decompression risk would be to increase CCR set point to 0 1 bar over and above the set point used during planning of the dive Users with dive computers with a fixed po2 decompression option may wish to set the set point of the wrist computer at 0 1 bar lower than the planned set point this will add some useful conservatism Any divers considering following the previous example should consider the following with regard to Bail out 2007 Rebreather Lab Co LTD 52 Pelagian DCCCR Operations Manual Worst case scenario is leaving maximum depth at maximum time and the CCR failing at the beginning of the ascent these things happen 33 DecoChek 2 11 New Dive calS File Edit Ascent Help Depth Arrive Stop e Oo ee ss oe 31 0 m 0 ou se ee PP 0 B 1 1 9 6 3 0 e By losing the fixed set point afforded by the CCR the decompression obligation increases dramatically The extra ascent and decompression neccessitates taking a 12 litre tank for bail out this tank must be filled to a minimum of 200 bar if using a breathing rate of 20 litres per minute If the CCR was to suffer a co2 hit at the end of the b
36. ake a picture and notify the shipping company as it will help when claiming the insurance if parts are missing or broken If everything seems ok proceed by unpacking and make sure you have the following list of components 1pcs X plate with 4 cam locks and 2 pcs 2 webbing 1 pcs Scrubber canister 1 pcs Scrubber head section with ADV 1pcs Scrubber bottom plug 1pcs Scrubber CO2 tube 2 pcs Scrubber absorbent screens top and bottom 4 pcs Scrubber lock pins 2 pcs Counter lungs 2 pcs 2 Keepers three bar slides 1pcs Breathing hose with two T pieces two P plugs and one DSV 1 pcs Balanced first stage regulator with short LP hose and swivel connection 1pcs Balanced first stage regulator with over pressure relief valve 1pcs Oxygen addition unit 1 pcs PO2 Display with cable for continuous monitoring of two cell read outs 1pcs O ring kit 2007 Rebreather Lab Co LTD 18 Pelagian DCCCR Operations Manual 1 pcs Operations manual CD or printed To prepare the Pelagian fully ready for diving the following equipment has to be added e Oxygen sensors Two Teledyne R22D oxygen sensors or three if you want to use a VR3 HS Explorer dive computer for independent PO2 monitoring e Cylinders One for diluent and one for oxygen Any size from 2 11 liters can be used The Catalina 19 cu ft 2 7L cylinders are of perfect length Ask your instructor for recommendations for your area and type of div
37. and needle valve Therefore this should only be done in an emergency if the on board O2 cylinder is depleted and no bail out gas is available After such an incident the O2 manifold should be sent for service by an authorized service technician The main reason the nipple was introduced was not for swapping O2 supply but rather to allow both hoses to and from the manifold to be replaced with standard BC inflator hoses As the increase decrease in mass flow of O2 is 196 per meter it is easy to predict the flow at the planned depth before the dive The diver needs to know his her metabolic rate at light work the planned depth and an easy to remember equation The flow including the increase is calculated as a fraction so for example at 50 meters depth there would be a 5096 increase in mass flow compared to the surface If the surface flow was measured to 0 5 lpm the flow should be multiplied with 1 5 and the mass flow at 50 m would be the surface equivalent to 0 75 lpm As it is more useful to know how to set the needle valve flow at the surface so it gives a suitable mass flow at depth the equation is just inversed A diver wants the surface equivalent of 0 75 lpm at 50 m Again the flow increase is 5096 and the fraction to use 1 5 so 0 75 divided by 1 5 equals 0 5 which is the flow to adjust the needle valve to before the dive A suitable flow meter should be graduated from 0 1 2 LPM or similar and have an accuracy of 4 across the scale or better
38. and take action accordingly His brain is essentially replacing the computer An interesting comparison is crossing a busy street If you cross at a zebra crossing with traffic lights every morning for several years you may eventually just wait for green light and go only to get hit by a colour blind motorist If you try to cross the same street without the reassuring traffic lights you would be more likely to check both left and right before attempting to cross right A disadvantage is that in a task loaded situation manually controlling the PO2 can be tricky for the inexperienced rebreather diver The main components of a closed circuit rebreather To give you a basic understanding on how a closed circuit rebreather works it is essential that you can identify the common components get familiar with abbreviations and understand what their functions are s Breathing Loop The loop is referring to all components your re circulated breath travels through this meaning the DSV breathing hose counter lung s and absorbent canister e Dive Surface Valve DSV The DSV is the mouthpiece and it also contains flow directional valves also called flapper or mushroom valves to ensure that your inspired breath only comes from one side ofthe breathing hose and that your exhaled breath only goes out on the other side of the hose toward the absorbent cartridge or Scrubber There is usually some kind of lever or quarter turn grip so
39. anual Po2 display shows different or static readings in 1 or 2 cells Diluent Flush Sensor validate Check ext sensor VR3 Expected Results Yes Carry on Monitor No Abort Possible Cause Current Limited Cells Po2 Rising above 1 3 Back off needle valve Diluent Flush stabilize readings Po2 Rising above 1 4 Close Needle valve Diluent Flush stabilize readings Po2 Still Rising Diluent Flush Close O2 cylinder valve Feather valve Abort dive Oxygen Hose fitting rupture Close O2 cylinder valve bail out Po2 Falling Exhale through Nose 1 breath add O2 with manual add button Po2 Falling Check O2 tank spg valve Empty Bail out Po2 Falling Open Needle Valve further manually add 02 Po2 Display Battery failure Abort using External Sensor vr3 No external sensor Turn off O2 tank Abort in SCR mode exhale every third breath listen for ADV trigger Buoyancy Gain Check Po2 Exhale through nose suggest ADV leak dose DILUENT valve watch spg fall Buoyancy Gain Check High po2 think 02 add valve bypass Diluent flush Close Needle Fixed Yes monitor No dose O2 tank valve and abort feather 02 valve as needed Buoyancy Loss Loop leaking Leaking Mask Leaking exhale lung o p valve Bubble check Rig BCD Drysuit Compensate ONCE problem persists Abort Dive OPV trigger on O2 1s stage Look up bubble check monitor P02 Close 02 tank valve feather as necessary Free flow on Inboard Bail out
40. as soon as the counter lungs bottoms out This means that in the event the diver wants to lower the loop PO2 he will have to exhale from his nose in order to lower the loop gas volume The next inhalation will make the counter lungs bottom out and the ADV will ad Diluent gas into the inhale side of the Scrubber This action lowers the loop PO2 as the Diluent is typically low in oxygen content Oxygen dosage system Regarding the continuous flow of the oxygen dosage system the three physical factors that determine the dosage of oxygen to the diver are 1 P1 The pressure from the 1s stage regulator 2 P2 The pressure in the CCR which is determined by the water depth 3 The diameter of the orifice in the O2 manifold The pressure from the 1 stage regulator is 9 BAR intermediate pressure IP plus ambient pressure so at sea level the total pressure from the 1st stage is 10 BAR and at 40 m the total pressure is 14 BAR Providing sufficient cylinder pressure exists a continuous flow of O2 is ensured at any depth as the differential is always 9 BAR It would appear logical at first to assume the same mass flow or dosage of oxygen would be delivered at various depths but unfortunately this is not the case Despite the same pressure differential of 9 BAR the dose of O2 will vary as both P1 and P2 varies with depth This is the reason the Pelagian DCCCR has an adjustable orifice the needle valve At this stage it is warranted to have a clos
41. ater Therefore you must use this manual in conjunction with a training course taught by a qualified instructor that leads to a certification by an authorized training agency As the basic principles of various Closed Circuit Rebreathers are similar the first section only addresses general rebreather concepts If you have previous rebreather experience and qualification you may skip this section and proceed directly to the subsequent chapters If you are unfamiliar with rebreathers and have not yet been given your course manual reading it will provide a platform to better comprehend the rest of the text The material is presented in a chronological way starting with assembly and ending with dive skills The appendix contains check lists constant Po2 tables and other charts you might want to copy laminate and bring on the boat Your Pelagian DCCCR kit is the result of years of development and hard work The reason for bringing this rebreather to the market is our belief that a small and lightweight unit that still offers long duration simple operation and easy field service is needed Whether these goals have been achieved or not is open for individual perception We are therefore grateful for your feedback and suggestions for improvements and will do our best to meet your expectations with future developments Good luck with your training and future rebreather dives Andy Fritz CEO Rebreather Lab 2007 Rebreather Lab Co LTD 6 Pelagia
42. ay cause flooding or hypercapnia leading to personal injury or death Next Install first stages to tanks The stage with the oxygen addition valve goes to the oxygen tank right side as worn Ensure that Oxygen 1 stage has over pressure valve installed Angle all hoses downwards to avoid damage Connect oxygen low pressure inflator hose lpi to the nipple on lid Turn on oxygen supply tank and verify contents Check operation of addition button and needle valve 2007 Rebreather Lab Co LTD 28 Pelagian DCCCR Operations Manual Once you are happy with operation of oxygen addition system It is time to set an initial flow rate of oxygen via the needle valve in litres per minute During training you will your at rest oxygen metabolic rate This figure may typically be somewhere in the region of 0 6lpm at the surface rising during exertion of course but largely independent of depth Using a floating ball gauge set the output of the oxygen addition needle valve to approximately 0 6lpm While breathing from the unit if the figure is correct you should not notice your po2 falling for 2 3 minutes The initial training dives will not use the needle valve to maintain po2 During these first few dives you should maintain po2 using the manual add button Next add the diluent1s stage regulator You may wish to add an LPI hose to allow wing inflation from the diluent tank Ensure that your back up buoyancy system
43. cal like calcium hydroxide the CO2 can be trapped By feeding fresh O2 into the bag it is possible to replace the consumed oxygen portion With a few simple check valves it is possible to ensure that the exhaled breath has to pass through the CO2 cartridge before returning to your lungs Hang on is this what I just paid thousands of dollars for The above is essentially the core of any rebreather but depending on exactly HOW the O2 is replenished takes us to some different designs Closed Circuit Oxygen Rebreather The closed circuit O2 rebreather was already in use during WW1 primarily by Italian Navy divers who managed to blow up several British ships anchored near Gibraltar by swimming right up to the ships hull and placing ordnance without being detected due to their absent telltale bubble trail The Brit s later copied this very simple and reliable design after capturing a few Italian frogmen Providing the diver sufficiently purged his lungs from nitrogen before starting to breathe from a Closed Circuit Oxygen Rebreather or CCORB the system is very reliable as the gas content is known without the need for any electronic monitoring system As the volume of oxygen is gradually depleted in the breathing bag fresh gas from a cylinder is added usually with a simple manual valve or an Automatic Demand Valve which is essentially the same as a standard second stage scuba regulator but without the mouth piece The main disadvantage with an O2
44. ckly both potentially leading to unconsciousness and death Minutes Hours Minutes Hours 0 720 720 Use the above chart to find dive time limits for each P02 used When a single exposure limit is reached you must extend you surface interval to 2 hours If a daily exposure limit is reached a full 12 hours must elapse to allow sufficient time for your CNS levels to normalise CNS Central Nervous System toxicity can be approximately measured throughout multiple dives using a CNS percentage exposure chart 2007 Rebreather Lab Co LTD 12 Pelagian DCCCR Operations Manual The CCR user must take on a mindset of close attention to detail and build experience driven responses that prioritize and thereby minimize risk The adage of Always know your Po2 cannot be stated heavily enough Breathing constant Po2 s may offer substantial reduction in decompression obligations but with every Ladder comes a Snake The Pelagian is a manual CCR in the sense that oxygen addition is user controlled and maintained there are no safety systems inbuilt to ensure life supporting oxygen concentrations Maintaining a constant po2 at a constant depth is fairly straightforward using either the Bypass button or Needle valve as required but as ever with increasing or decreasing depth ascending or descending the partial pressure of oxygen can change very quickly A user currently at 30metres depth having built a po2 of 1
45. ders All CCRs need compressed oxygen and diluent to be added to the loop in intervals The typical configuration is a pair of 2 3L cylinders and appropriate first stage regulators carried either valves up or down At first you may think that this modest volume must be insufficient but dependent on dive depth it typically represents 6 8 regular 11L cylinders worth of duration for an open circuit diver Two Pelagian divers ready to dive 2007 Rebreather Lab Co LTD 11 Pelagian DCCCR Operations Manual Section 2 CCR Physiology Closed Circuit Divers have extra issues to consider with regard to their physical well being while immersed in a hyperbaric environment compared to their open circuit ilk Even pre and post dive while swimming in the shallows or on the surface can be a life threatening event Hyperoxia or Oxygen Toxicity are major concerns for CCR users as the equipment provides the user with the ability to maintain a constant partial pressure of oxygen Po2 throughout the dive Maintaining high Po2 s for lengthy periods can lead to CNS toxicity see table below but also if the unit suffers a mechanical or electronic failure the user may be supplied with devastatingly high or low po2 causing immediate unconsciousness either way usually going unnoticed until too late constant vigilance and attention to the CCR units control systems is mandatory Failure to monitor Po2 s may lead to Hyperoxia Hypoxia very qui
46. dive other than traditional tables Do you consider yourself competent enough to undertake dives on a Pelagian DCCCR with out your instructor have reviewed the questions with my instructor and completely understand the questions may have missed am satisfied with my training and the information presented and feel confident to make Pelagian DCCCR Closed Circuit Rebreather dives without supervision Signed Date Name Address Age Phone 2007 Rebreather Lab Co LTD 64 Pelagian DCCCR Operations Manual APPENDIX OXYGEN MASS FLOW CHART SHOWING POSSIBLE FLOW MODIFICATIONS AT DEPTH 042 o4 osa ose 068 044 oso oss ost oss 04 os oss oss oss 048 os 060 066 072 Toso ose aes oso 075 rosa oss oes oz2 078 rose oes 073 oao oer Los ose 075 oss 090 Los oso 078 oss oss ross ozz oso oss 096 ross oz oss 091 oss To Calculate desired Flow consider the following Example Desired Mass Flow at 90msw is 0 7 lpm What should the surface mass flow be adjusted to before the dive 90 msw is a 90 increase Or 1 9 as a fraction 0 7 lpm 1 9 0 37 Ipm at surface 2007 Rebreather Lab Co LTD 65 Pelagian DCCCR Operations Manual Any flow rate required can be adjusted simply by using the needle valve and then verifying using a Dwyer floating ball gauge Pelagian users are encouraged to obtain
47. e left the dive plan to be followed when all goes to plan but in addition the modified plan necessary when performing an open circuit bail out ascent to the right The plan is followed by leaving the appropriate stop depth at the new run time It is interesting to note the open circuit gas requirements for an ascent at end of bottom time RMV 18litres per min with zero reserves Trimix 14 56 ascending from 90m to 70m 180bar in 3 litre Trimix 20 30 ascending from 70m to 21m 292bar in 12 litre Trimix 50 10 ascending from 21m to 6m 208bar in 12 litre Oxygen used at 6m and 3m 185bar in 7 litre Dives to trimix depths should include sufficient Bail out for each diver personally to reach the surface without the often frantic search for a team mate who might be carrying the gas you need On all CCR dives optimised Bottom Mix is advised rather than using Hypoxic Trimixes such as 10 50 for all dives this practice is popular with internet experts and has led to many hypoxic deaths some even in a swimming pool 2007 Rebreather Lab Co LTD 54 Pelagian DCCCR Operations Manual Some decompression software titles penalise the user for using Helium good ones don t With software that does increase decompression times users should avoid the practise of changing Diluents with lower Helium fractions during ascent planning This practise simply tricks the software into producing shorter decompressions with little regard to actual the
48. ely sized wing with 20kg s of lift Bigger wings may of course be used Single tank wings should not be used as they would become partially wedged between the back plate and X Plate Next check all o rings to breathing loop hose ends and scrubber lids both bottom and top have been installed and lightly lubricated Check mushroom valve integrity by exhaling in to the exhaust P plug and inhaling from the inhalation P plug while blocking the T piece and the DSV barrel in the open CCR position This should not work If any gas creep is noticed replace the mushroom valves The flow of gas should be as such EXHALE to RIGHT and INHALE from LEFT If incorrectly connected the T piece P connectors will orientate upwards away from the counter lung P ports 2007 Rebreather Lab Co LTD 27 Pelagian DCCCR Operations Manual Picture shows differences between each side of breathing hose To the right is the exhale side with moisture deflecting plate Exhale lung is on right side of harness as worn Once buoyancy wing and back plate are installed next add the breathing loop The loop o rings should be cleaned of dirt and hairs and lightly lubricated before installation Check the correct orientation of the loop by breathing through it and checking water trap deflector side attaches to exhale bag right side as worn exhale bag has no Pelagian logo AWARNING Failure to ensure cleanliness of o rings and orientation of loop m
49. epth 8 SCR Mode Shut O2 tank valve Swim while exhaling every 3rd breath from nose and monitor Po2 display continuously 9 Open Loop Mode Inhale from mouth and exhale from nose Stress vertical body position to reduce WOB 10 O2 Leak Shut O2 tank valve open needle fully to simulate leak maintain set point by feathering O2 tank valve 11 ADV Leak Flash card ADV Leak Instructor purges students ADV student shuts down DILUENT Flash card high O2 Student exhales from nose and feather DILUENT cylinder briefly to bring down Po2 12 Flash card Cell 1 amp 2 disagree Student should use Instant Cell Validation Signal Cell 1 is out or similar Student should signal end the dive or bail out 13 SMB Deployment 14 Ascent 15 O2 flush At 5m 16 Safety stop 5 min at 6 meters 17 Surface Open Water Dive 5 Brief students that they are expected to perform skills like Bubble check 3 Point Cell Linearity Check needle valve adjustments Po2 control and Instant Cell Validation with out prompt For Failure Scenarios do not use flash cards suggesting remedy but rather describes a situation in order to gauge the students solution thinking ability Entry Student enters water breathing from bail out reg 10096 02 in the loop DILUENT tank valve closed and DILUENT line pressure purged 2007 Rebreather Lab Co LTD 47 Pelagian DCCCR Operations Manual 2 Descent Descend to 6m while breathing the OC bail ou
50. er look at some definitions Flow Usually specified as a volume of gas or liquid per minute As liquid is practically incompressible Flow could also be used to quantify amount of mass or molecules As gas is compressible for our purposes it gives only half the truth In an hospital environment an individuals metabolic rate or need of oxygen is given as Liters Per Minute LPM as most hospitals are at sea level or at least very few are deeper than sea level What actually matters for our metabolism is a quantity of O2 molecules but as they are hard to count during a dive we will keep our eyes peeled on the pressure of O2 in the gas we breathe Mass Describes the density of a matter but not its volume 2007 Rebreather Lab Co LTD 35 Pelagian DCCCR Operations Manual Mass Flow This term refers to both volume and density and is therefore better suited to measure our oxygen needs while diving A simple word that can substitute mass flow is Dose of oxygen CV Factor The CV factor describes how much a flow increases by a given number of turns on a valve The needle valve on the Pelagian DCCCR is a fine metering needle valve with a very linear CV factor As the Pelagian DCCCR 1s stage regulator is responsive to the ambient pressure the mass flow of oxygen will increase as a diver descends deeper Like wise the mass flow of oxygen will decrease on ascent Providing the IP of the 1s stage is 9 BAR and no adjustment is made
51. ered deciding when to switch to bail out Switching to Bail out early or even immediately is not a sign of weakness it is the only way you can analyse a problem without continuing to breathe a gas that very likely will ultimately render you unconscious in seconds or minimally confuse the hell out of you causing you to make the wrong choice or react inappropriately Guidance note CCR divers should check the viability of all breathable Bail out tanks throughout the dive including clearing the BOV of water with every increase in depth In line shut off valves have no place on any CCR unit if you have leaks anywhere fix them before diving The Team bail out notion where only one set of OC bail out tanks is split between the dive team is not recommended While CCR problems are relatively rare it is advisable that every team member carry ALL the gas necessary to reach the surface Problems with more than one diver are not unheard of Bail out cylinders are those completely isolated from the CCR also deemed off board Guidance note Carrying a larger diluent tank and plumbing in an extra 2 stage does not constitute redundant bail out Consider the implications of the diluent 1 stage failing in this case or any other part connected to it Lost Diluent Lost ADV Lost on board Bail out Lost buoyancy device Using a larger diluent tank in conjunction with a BOV makes some sense though in that it offers extra breathing thinking time to
52. essure in the counter lungs which will by design make the ADV fire so the PO2 drops even further below your set point The closer you get to the surface the harder it will be to maintain your set point In order to prevent the ADV to be working against you on the ascent a few techniques should be considered 2007 Rebreather Lab Co LTD 39 Pelagian DCCCR Operations Manual 1 Ascend as horizontal as possible 2 Deflate your wing earlier than usual If loop volume also accounts for what you need to be neutral it will usually mean a slightly over pressurized loop which will make the ADV less prone to trigger 3 Providing your wing is connected from your off board bail out cylinder you could simply shut your diluent cylinder down to eliminate the ADV altogether Note that if your Pelagian is equipped with the optional BOV this should also be feeding from the off board bail out cylinder So called in line shut off valves are readily available from third party vendors and many CCR divers equip their ADV s with these devices The main reason the Pelagian does not come with one is that few divers can reach them due to the location of the ADV Another reason to not use them is that if the high pressure seat in the diluent 1st stage fails and the shut off valve is closed the ADV hose would rupture and all remaining gas would be unavailable to the diver In the same scenario with out a shut off valve the ADV would free flow and once the cylinde
53. gets complacent enjoying the ride while the computer drives the car Should a noticeable technical failure occur there are usually manual over ride valves available but the question is if the diver will respond fast enough With sufficient training and experience proper failure response can be achieved but still it lies within human nature to trust what usually works After 200 successful dives would you detect an emerging problem fast enough on dive 201 or much like a lobster in a saucepan think the warm water around you simply means its bath time Mechanically Controlled Closed Circuit Rebreather An MCCR is the same as an ECCR with the difference of taking the computer out of the equation and instead leaving the diver to manually feed oxygen or diluent into the breathing loop The only electronic device is the oxygen PO2 monitoring system informing the diver of the current pressure of O2 in the breathing loop If the PO2 is lower than desired the diver presses a button to feed O2 into the loop Many systems also have an orifice allowing a slow continuous flow of oxygen trickle in to the loop 2007 Rebreather Lab Co LTD 8 Pelagian DCCCR Operations Manual usually at a slightly lower rate than the metabolic need of the diver thus maintaining a more even PO2 with fewer manual button feeds This type of system requires a bit more attention from the diver but this is also the inherent advantage It drives the diver to monitor the PO2
54. hen change to 0 9 BAR Po2 for a few minutes Alternate as needed until able to stay within 4 0 1 BAR of set point Needle valve closed 8 Instant Cell Validation Exhale through nose then one slow inhalation once the ADV triggers 9 Cell Moisture Removal Exhale though nose and one fast inhalation once the ADV triggers 10 Remove replace DSV let go of DSV secure and replace it If unit is not equipped with optional BOV this skill should be practiced before bail out drill 11 Exhalation Hose Drain Push corrugations together assume vertical trim look up and tilt right 12 Loop Flush Stress low ADV and high dump valve position Do NOT pull the loop dump until the ADV is free flowing as to prevent water intrusion Use left arm to pull the dump and right arm to alternate between crushing the inhalation and exhalation hoses above the T pieces 10 seconds for each hose This will drive high po2 from scrubber and inhalation counter lung while reducing positive buoyancy 13 Loop Drain Assume vertical trim Deflate Wing Purge ADV while pulling loop dump vale Note Some divers will not be able to reach the ADV purge especially wearing a dry suit or heavy wetsuit If so anchor legto stationary object pool ladder etc and draw air from bail out exhale into loop and repeat until loop is sufficiently over pressurized to force water out of the dump 2007 Rebreather Lab Co LTD 43 Pelagian DCCCR Operations Manual
55. idation 11 Ascent A condensed multilevel ascent is recommended to allow time for buoyancy and Po2 control Stress venting loop gas before adding O2 and deflating wing early on as keeping loop volume slightly over pressurized will prevent ADV from triggering 12 Safety stop 5 min at 6 meters 13 Surface Reinforce step 1 inflate wing step 2 shut DSV step 3 remove the loop If surface is rough have students breathe their bail out Open Water Dive 2 1Entry Student enters water breathing from bail out reg 100 02 in the loop needle valve closed DILUENT tank valve closed and DILUENT line pressure purged 2 Descent Descend to 6m while breathing the OC bail out Ad O2 to loop to arrest descent speed 2007 Rebreather Lab Co LTD 45 Pelagian DCCCR Operations Manual 3 3rd Point Cell Linearity Check Ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth before going to loop Open DILUENT and bring down Po2 to 0 7 BAR Po2 4 Bubble Check 5 Descent to max depth see general CCR standards 6 Instant Cell Validation 7 Setpoint Bring loop to set point 1 2 BAR Po2 while maintaining depth 8 Tour Maintain set point with max 0 1 BAR Po2 deviation 9 Cell Moisture Removal 10 Loop Flush 11 Remove Replace DSV 12 Exhalation Hose Drain 13 Loop Drain 14 Instant Cell Validation 15 Ascent A slow continuous ascent is recommended to further practice buoyancy
56. ight This Pelagian DCCCR canister does not use any spring system to take up any play so the sorb needs to be packed tight to avoid channeling Clean the top and bottom sealing area of the scrubber tube and inspect the orings on the Head and the bottom plug Align the head with the locking holes push it down and install the locking pins Tap the scrubber some more to get any dust out Align the bottom plug inserts with the two side holes in the scrubber tube push the scrubber down and install the two lock pins Guidance Note Sofnolime grade 797 8 12 has less inter granular space than Draeger divesorb or Sofnolime of larger grade Absorbent needs to be properly packed to avoid channeling If you feel WOB is too high you should use another grade such as Draeger Dive Sorb or Sofnolime with larger pellets rather than experimenting with loose fills Ask your instructor for advice on packing the scrubber Do not add sponges tampons or other absorbent material in the bottom plug water trap area Foreign bodies such as these may move and block the gas path with dire consequences 2007 Rebreather Lab Co LTD 24 Pelagian DCCCR Operations Manual Picture shows correctly filled scrubber with CO2 tube and top screen correctly orientated Another option of filling the scrubber is detailed as follows Insert bottom screen into scrubber tube and push down to support ledge mesh side should face top of scrubber Insert Co2 tube into bot
57. ing The O2 cylinder and valve have to be for oxygen service The diluent cylinder and valve are recommended to be for oxygen service e Pressure gauges Two submersible pressure gauges and HP hoses 20 recommended suitable for oxygen service s Wing Minimum 40 Ib with low top profile and short length to avoid abrasion when standing the unit Avoid low lift single tank style wings as the X plate will prevent full inflation e Harness and back plate Continuous webbing with 4 D rings recommended Crotch strap is usually not needed The back plate needs bolt holes 11 apart industry standard e Battery One standard 9V battery drives both display read outs Any battery will work but a high quality alkaline will last longer e Bail out CCR diving requires OC bail out for emergency The regulator should be good enough to breathe from at maximum depth during high work load The cylinder should have sufficient capacity to bring you and your buddy to the surface It is recommended to use the bail out for wing inflation for reasons discussed in a later section AWARNING The initial set up of the Pelagian DCCR unit should only be performed under the close supervision of a Pelagian Instructor Failure to do so may expose the user to increased risk of Hypoxia Hyperoxia Drowning Death The Pelagian user guide is supplied as a reference guide only with the aim of reinforcing principles covered during a formal Pelagian unit training co
58. irect from the mouth with the DSV OC 21d stage removed 30 Rescue Approach unconscious CCR diver evaluate arousal note Po2 secure DSV if not dislodged If Bailout valve option is fitted switch to OC Do not remove DSV Cradle tanks from behind Initiate positively buoyant ascent by inflating casualty s wing Once loop expands vent it by tilting casualty s DSV or tilt casualty to the left and dump At surface inflate wing close and remove DSV alert boat and commence resuscitation and tow Open Water Dive 1 1Entry Student enters water breathing from bail out reg 100 02 in the loop needle valve closed DILUENT tank valve closed and DILUENT line pressure purged 2 Descent Descend to 6m while breathing the OC bail out Ad O2 to loop to arrest descent speed 3 3rd Point Cell Linearity Check Ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth before going to loop Open DILUENT and bring down PO2 to 0 7 BAR Po2 4 Bubble Check 5 Descent to max depth see general CCR standards Watch out for O2 spikes Encourage vertical trim to aid ADV 6 Instant Cell Validation 7 Setpoint Bring loop to set point 1 2 BAR Po2 while maintaining depth 8 Tour Maintain set point with max 0 2 BAR Po2 deviation Keep depth constant watch out for nose breathing and overshooting set point 9 Bail out Stress checking Po2 before breathing from loop 10 Instant Cell Val
59. irtually impossible to survive alone much like oxygen toxicity Being re circulating equipment CCR relies heavily on the carbon dioxide scrubber to remove the divers exhaled carbon dioxide anything that affects the efficiency of the absorbent material must be minimized or avoided Things that can have dire effects on scrubber effectiveness are as follows It is imperative that CCR divers maintain an at rest breathing rate In deep water below 50metres it is prudent to use a breathing gas containing Helium to help lower the Work of Breathing WOB Other CCR units state that they have CE accreditation for use as deep as 100m users should be aware that this must be in conjunction with breathing gases with sufficient helium to allow a relative END of just 24metres At 100metres this might Trimix 10 70 or even Heliox Before each dive users should pre breathe their CCR units for at least 3minutes to start the exothermic reaction within the scrubber If the air or water temperatures are less than 10 centigrade then consider extending the pre breathe surface time to 10minutes Failure to pre breathe the unit before diving may render the carbon dioxide inactive leading to Hypercapnia and or Unconsciousness Hypercapnia An excess of Co2 or partial pressure of 0 05 bar is called hypercapnia or hypercarbia Do not underestimate the significance of this It can be a major contributory factor to many other gas toxicity problems and ca
60. ith your training the needle valve will be introduced and you will learn both to pre adjust it for suitable mass flow at max depth as well as adjusting it on the fly When you close the needle valve fully it is important to not use any force J ust close it with two fingers until it stops The needle stem is located in a plastic orifice If the needle stem is forced 2007 Rebreather Lab Co LTD 37 Pelagian DCCCR Operations Manual against the orifice seat it can damage both the orifice and the needle stem which would result in an altered CV factor meaning it will be much more difficult to fine tune the valve for low flows When you receive your Pelagian DCCCR the needle valve is pre adjusted so that a fully closed setting still leave approx 0 1 0 2 LPM flow in order to protect the orifice and stem Do not remove the lock screw on the handle as this will disrupt this setting and could cause the handle to fall off during a dive Do not tighten the bonnet that is sealing against the O2 manifold as this will alter the flow setting and possibly damage the orifice and stem With normal use and post dive rinsing in fresh water while making sure no water leaks in to the manifold there should not be much or any service required The new generation O2 manifolds allows changing O2 cylinders by unplugging the onboard feed hose However there is no check valve on the nipple which means changing O2 cylinders during a dive WILL introduce water to the manifold
61. ives are minimised Just before entering the water and after all other checks it is nowtimeto pre breathe your unit Pre breathing is a very important step that kick starts the exothermic reaction within the carbon dioxide absorbent In moderate or tropical temperatures it is sufficient to pre breathe for 3 minutes or So If entering very cold water then a longer pre breathe Session up to 10 minutes is necessary Guidance note Cold temperatures are an enemy of the CCR diver and can cause failures in absorbent leading to carbon dioxide increases and even death Always Pre Breathe for AS 10 minutes directly prior to entering the water if surface i temperatures are less than 6 centigrade 2007 Rebreather Lab Co LTD 32 Pelagian DCCCR Operations Manual During ALL rebreather dives divers must use an off board Bail out cylinder of adequate size to return the user AND buddy to the surface AWARNING Failure to carry adequate bail out breathing gas may result in personal injury and or death 2007 Rebreather Lab Co LTD 33 Pelagian DCCCR Operations Manual LAB checks Student name Course start date Dive buddy Instructors name Students metabolic rate REBREATHER Pelagian DCCCR dive planning and pre dive safety lpm Assembly and function Pool dive Dive 1 Dive 2 Dive 3 Dive 4 Dive 5 Dive 6 Date Tanks analyzed O2
62. lt in your injury or death Display battery Invert the scrubber Head and place it on a table while allowing the display cable to clear the edge of the table to avoid over bending it Using a small Philips head screw driver unscrew the four stainless steel screws securing the battery lid Remove the lid and rubber gasket Connect the strap to a fresh high quality alkaline 9V battery Lower the battery into the slot while avoiding the cables to get pinched between the battery and compartment walls The cable will need some bending When replacing the battery avoid straightening the cable The battery strap is very short on early units and there is only 0 5 mm clearance between battery and lid On early units the positive pole is up see fig 7 Later units have longer cables negative pole up and there is approx 2 mm clearance between the battery and lid see fig 8 This clearance should be used to loop the battery cables with out allowing them to cross Do NOT loop the cable under the battery as it is not possible to visually confirm that cables don t cross If you feel resistance and the battery does not seat all the way to the bottom DO NOT force the battery as you will risk peeling the insulating jackets and create a short circuit The reason for the longer cable is to allow easier replacement of the battery strap if needed Fig 7 Short strap means positive up Fig 8 Long strap means negative up 2007 Rebreather Lab Co LTD 22
63. me increases and must be dumped overboard for the unit to remain comfortable to breathe from dump excess through Nose or Mouth An over pressured breathing loop will give the feeling and look of a Hamsters Cheeks with cheeks looking and feeling bloated dumping the excess gas will fix this As the loop loses volume it loses Po2 of course as well All CCR users strive to maintain a loop Po2 of 0 70bar to 1 0bar during an ascent experience makes this easier to achieve and a slow ascent circa 9 10 metres per minute is very helpful also Oxygen can be added as necessary via the manual Add Button A series of short controlled bursts is best with a few moments between each burst to observe changes as loop po2 stabilises Failure to maintain a suitable po2 during an ascent may lead to Hypoxia and unconsciousness much the same as Free Divers suffer Shallow Water Black out during a return to the surface It is recommended that users strive to maintain a po2 around 1 1 1 2 bars of oxygen throughout their dives New users should avoid entering formal decompression 2007 Rebreather Lab Co LTD 13 Pelagian DCCCR Operations Manual obligations Open Circuit Bail Out cylinders must be taken on all dives The volume of these tanks must be sufficient to allow the user to reach the surface in comfort while performing any safety or decompression stops The oxygen cells in the head of the rebreather are integral part of the po2 measureme
64. n DCCCR Operations Manual Section 1 A Primer on Rebreathers Your body is only metabolizing a small part of the oxygen contained in the air you breathe As you inhale the air contains around 21 oxygen and the exhaled breath typically contains 16 17 oxygen While scuba diving exhaling your breath into the water is rather wasteful and thus requires a relatively large cylinder of breathing gas if any dive duration beyond a few minutes is required Long before the popular open circuit system emerged the first underwater breathing systems looked more like a rebreather than the classic regulator and cylinder popularized by Jacques Yves Cousteau Looking at a gas relief several hundred years old one can clearly see a diver breathing in and out of a bag a cow stomach thus recycling the breathing gas If you were to breathe in and out of a plastic bag you would have a rebreather in its most simplified form The problem would be that the exhaled breath would contain a proportion of Carbon dioxide as this is our bodies waste product produced through our bodies metabolic process This CO2 would accumulate to dangerously high levels in the same time as the O2 content would gradually drop to the point where it would not be sufficient to keep you conscious These two problems have to be addressed in order to create a rebreather capable of keeping you alive for more than sixty seconds By installing a cartridge containing an absorbent chemi
65. n cause unconsciousness In CCR diving hypercapnia can be caused by the following 2007 Rebreather Lab Co LTD 15 Pelagian DCCCR Operations Manual Major symptoms of carbon dioxide poisoning which appear in many but not all cases of over exposure include Breathlessness which can be obscured by hard work Headache which is frequently confused with cold water headache or sub clinical DCI headache Dazed Confused Lethargy Unconsciousness Inability to self rescue Guidance note DO NOT second guess ANY unusual symptoms while breathing from CCR Carbon Dioxide poisoning can render the user beyond Self Help in just a few breaths IF IN DOUBT BAIL OUT 2007 Rebreather Lab Co LTD 16 Pelagian DCCCR Operations Manual Vasodilation Carbon dioxide is termed a vasodilator Excess CO2 dilates the blood vessels which in turn allows more dissolved gases to be carried throughout our system and to the brain An excess of CO2 can therefore increase the chance of O2 toxicity nitrogen narcosis decompression sickness and hypothermia unless steps are taken to avoid it Co2 Poisoning Treatment As with all gas poisoning the first step is to remove the toxic source Because excess CO2 is usually a result of poor breathing in some way or another this is best done by taking deep flushing breaths from an open circuit bail out regulator and relaxing Reducing the depth may help though buoyancy should be co
66. nal end the dive Cut Note If student signals share air give credit but signal back buddy gone 9 CCR Gas Leak Scenario 3 Flash card GAS LEAK while purging students ADV student should shut down O2 and DILUENT valves bail out to OC vent loop volume and check SPGs and Po2 display Instructor points to the dropping DILUENT SPG Instructor use flash card for bail out depleted Student should open the O2 valve check Po2 display go back to the loop and signal end the dive Cut Note If student signals share air give credit but signal back buddy gone 10 O2 Depleted Scenario 4 Flash card O2 depleted Student should bail out Flash card Bail out depleted Student should check Po2 go back to the loop use SCR mode and signal end the dive Cut 11 Dead Display Scenario 5 Flash card All displays are dead Student should bail out Keep student on OC 12 SMB Deployment 14 OC Ascent 13 Safety stop 5 min at 6 meters 14 Surface Open Water Dive 6 Providing all previous skills are completed satisfactory brief students that this last training dive will not contain any prompted skills and that they should regard it as a regular leisure dive Are they in the driver s seat or not If previous skills need more practice at least allocate a portion of the dive for a final evaluation of the student s general readiness Additional Problems Solutions 2007 Rebreather Lab Co LTD 48 Pelagian DCCCR Operations M
67. ng The absorbent canister is filled with absorbent media or Sorb or Lime in CCR lingo The exact chemical content of the Sorb varies slightly between manufacturers but contains normally a good portion of calcium hydroxide and sometimes also alkali phosphate or sodium hydroxide Shapes and design varies but are commonly classified after the way the gas flows through i e radial or axial Lithium hydroxide offers superior duration but as it reacts violently with water it is rarely used in recreational diving The Pelagian standard scrubber canister will hold approximately 3 4kgs of sofnolime 797 grade 2 5mm material e Automatic Diluent Valve ADV Essentially a second stage regulator or similar type of valve that automatically injects fresh gas once a set pressure difference is achieved Just as your standard second stage regulator opens its valve when you start inhaling and stops when you start exhaling the ADV will trigger once the rebreather loop volume gets lower than usual J ust as the volume of your BCD compresses when you dive deeper the flexible part of your rebreather will do the same Therefore you will need to ad gas to make up for the compressed volume Some rebreathers don t have an ADV but then they should have a manual ad valve The ADV just means you don t have to press a button to add gas which is very useful while descending e Oxygen addition system In its most basic form this is an oxygen cylinder with valve
68. ng pinching the inhale and exhale loop hoses behind the T pieces for 5 seconds each Ideally the needle valve should be tuned so that it replaces metabolic needs at a low work load This means manual additions should be required every 5 10 minutes depending on work load in order to prevent a PO2 decay of more than 0 1 BAR As long as the Po2 does decay gas is not wasted If the Po2 decays too fast it just means that a shorter interval of manual injections is needed If the needle valve is adjusted for a too high mass flow several loop flushes or ADV activations are needed This usually brings the PO2 a bit below the set point depends on depth which means further O2 will be needed to bring the Po2 back up to set point Po2 curve using manual bypass only Manual O2 injections 1min 2min 3min 4min 5min 6min 7 min 8min 9min 10min Po2 curve using manual bypass and needle valve set for slow decay Manual O2 injections 1min 2min 3min 4min 5min 6min 7min 8min 9min 10min Po2 curve using too high flow rate on the needle valve Gas is wasted V ADV is activated by exhaling through nose V V 1min 2min 3min 4min 5min 6min 7 min 8min 9min 10min As you can see it is more important to quickly become proficient with the manual bypass than an expert on adjusting the needle valve Therefore the initial training dives will be done using only the manual bypass valve and the ADV As you progress w
69. nt system They should be replaced yearly or even sooner if their outputs start to degrade as in time they are sure too Ideally replacement oxygen cells should be obtained from different batches as the manufacturing process seems to be an in exact science and even multiple brand LA new cells can be supplied faulty The surface S calibration protocol of measuring 0 21 002 at the surface in air and 1 00 bar po2 in a timely fashion at the surface using 100 oxygen prior to every dive is mandatory as is the check to see if the oxygen cells have become current limited To check for current limitation the unit should be flushed with 100 oxygen and at the beginning of a dive taken to 6metres ideally while holding onto an anchor line This oxygen and depth combination will yield a display value of approximately 1 6 bars on both read outs this shows that the cells are not limited in output If the displays fail to show 1 6 bars or thereabouts then either the cells are near expiration or maybe the ADV has triggered during the descent Discuss with your instructor to ensure correct techniques are used to test for current limited oxygen cells Using a general diving set point of 1 2 bars and testing the cells prior to each dive to at least 0 4 bar above this will allow for a buffer that may reveal cell limitations within safety during your dive Guidance note Ensure that the last digit of the display is constantly moving up or down This will c
70. ntrolled and all work should be ceased If the diver is actually unconscious he or she must be removed from the water and resuscitated if necessary While underwater and if possible switch the DSV to the BOV setting Carbon Dioxide poisoning may take a long time to recover from Give 100 oxygen if available though it may not immediately reduce all the symptoms especially the headache Carbon Dioxide build up can take many hours to subside even breathing Oxygen As with all victims of unconsciousness or gas toxicity continue to monitor breathing and circulation and seek formal medical aid as soon as possible The Pelagian Scrubber takes approximately 2 8kg of Sodasorb large granule up to 3 4kg of Sofnolime small granule 797 grade The larger the granule size equals a lower work of breathing but at the expense of absorbent usage time Larger granules are better suited to less than 50metre diving with Air diluent Smaller granules are better suited to deeper diving with Helium based diluents Guidance note Do not tightly over pack scrubber material Increased Work Of Breathing may result leading to carbon dioxide build up Review packing the scrubber with your instructor 2007 Rebreather Lab Co LTD 17 Pelagian DCCCR Operations Manual Section 3 Initial Assembly of the Pelagian DCCCR When you receive your Pelagian DCCCR kit please start by inspecting the package for outside impact or damage Should there be any damage t
71. of the unit Easy to reach moisture may be removed by patting with kitchen towel etc Do not blow moisture away with compressed air Allow all moisture to evaporate overnight while sealing the scrubber with a plastic bag or similar Do not leave head in place for extended periods if obviously damp my n i f H EANAN AAN m 7 X Pith 2007 Rebreather Lab Co LTD 56 Pelagian DCCCR Operations Manual Section 10 General Pelagian Maintenance Optional parts from Rebreather Lab Explorer Scrubber Scrubber mid section that accept 4 5 kg of Sofnolime 797 for up to 8 hours dive time in warm water OC CC DSV BOV Switch between high performance balanced OC bailout and loop with out removing the mouth piece Full face mask adapter For use with the Draeger Panorama Dive full face mask Pelagian Wing 50 Ib wing with low top profile and length designed for the Pelagian DCCCR Spares Kit Complete loop o ring kit 4 scrubber lock pins and scrubber sticker Flow rate meter 0 2 1 2 lpm graduation and inflator nipple for easy connection from Pelagian DCCCR O2 addition unit AWARNING Failure to buy ALL options WILL result in personal injury death or worse 2007 Rebreather Lab Co LTD 57 Pelagian DCCCR Operations Manual 5o REBREATHER ur A LA B Pelagian DCCCR Diver Final Exam rev 1 1 Name Date This exam helps to identify
72. on during your training dives 1 Adiver is at 30 m with a set point of 1 2 BAR The needle setting seems fine as the previous 15 minutes of the dive only needed few manual injections of O2 He dears his mask with out thinking much of it but this reduces the loop volume Next inhalation triggers the ADV and the PO2 drops Should he open the needle valve more No He should just take a few breaths to allow the newly added DIL to mix with the loop gas and then decide how much O2 to ad with the manual bypass 2 A diver is at 20m with a set point of 1 2 BAR She casually swims over a fan coral while checking the PO2 which drops as the ambient pressure drops Should she inject more O2 or increase the mass flow on the needle valve No J ust swim back down to 20 m if that was the planned depth and the set point should be back on track 3 A diver is adjusting the needle valve on the fly and finds that even with an unusually high setting the PO2 is still below set point Should he open the needle valve further No The needle valve is not a tool to bring the loop PO2 to set point This should be done with the manual O2 bypass valve or the ADV Once set point is reached the needle valve is adjusted to prolong the intervals between manual injections If he finds that the needle setting now over shoots the set point he should reduce the flow of the needle and use the ADV to bring the loop back to set point Then evaluate the new needle setting over the ne
73. onfirm that displays are not frozen During your Pelagian user training course you will perform Instant Cell Validation checks throughout the course dives Validating cells is as simple as exhaling the loop volume though the Nose and inhaling slowly via the ADV while noting the Po2 display Using air as a diluent you would expect to see the figures in the chart below corresponding to the depths the validation was performed at Surface Readout with 21 02 Displays Read 0 210 Diluent 10 Metres Depth Displays Read 0 420 20 Metres Depth Displays Read 0 630 30 Metres Depth Displays Read 0 840 40 Metres Depth Displays Read 1 050 Guidance note Before performing a cell validation or if you observe one cell s output lagging behind another you should consider flushing moisture from cell faces by performing a rapid diluent flush The positioning of the ADV above the cells ensures each cell will have moisture removed during a fast diluent flush Moisture on cell faces has been linked to erroneous po2 measurement 2007 Rebreather Lab Co LTD 14 Pelagian DCCCR Operations Manual Carbon Dioxide Build Up Carbon dioxide CO2 is a contributory factor to various forms of gas toxicity for instance Oxygen Toxicity and Nitrogen Narcosis More importantly to the CCR diver is Carbon Dioxide s ability to build up and strike seemingly without warning in a term known as a Co2 Hit Co2 hits are relatively easy to avoid but v
74. ottom time surely elevating the breathing rate to 40 litres or more per minute for an extended time then staying close to a buddy also carrying a 12litre tank and hopefully not experiencing the same problem as you would be prudent Filling the bail out cylinder with Nitrox 32 and having a plan to suit could shave 15minutes from the decompression and leave a bit remaining in the tank well worth considering 2007 Rebreather Lab Co LTD 53 Pelagian DCCCR Operations Manual The following example is a 90metre dive with 30minute bottom time Setpoint is 1 3 29 DecoChek 2 11 90m for 30mins dck ofS File Edit Ascent Help Depth Arrive Stop Leave Mix CCR 0 00 00 CCR 0 7 90 00 04 00 26 00 30 CCR 1 3 45 00 36 00 01 00 37 CCR1 3 00 36 IMX 20 30 42 00 37 00 02 00 39 CCR 1 3 00 38 IMX 20 30 39 00 39 00 02 00 41 CCR 1 3 00 40 IMX 20 30 36 00 41 00 03 00 44 CCR 1 3 00 44 IMX 20 30 33 00 44 00 03 00 47 CCR 1 3 00 48 IMX 20 30 30 00 47 00 03 00 50 CCR 1 3 00 52 IMX 20 30 27 00 50 00 05 00 55 CCR 1 3 00 58 IMX 20 30 24 00 55 00 05 01 00 CCR 1 3 01 06 IMX 20 30 21 01 00 00 06 01 06 C 1 3 01 16 TMX 50 10 18 01 06 00 07 01 13 CCR 1 3 01 18 TMX 50 10 15 01 13 00 09 01 22 CCR 1 3 01 27 TMX 50 10 12 01 22 200 11 01 33 CCR 1 3 01 38 TMX 50 10 9 01 33 00 14 01 47 CCR 1 3 01 54 TMX 50 10 6 01 47 00 19 02 06 CCR 1 3 02 17 100 3 02 06 00 2 02 35 CCR 1 3 02 34 100 0 02 35 CCR 1 3 03 08 100 Print The above table shows to th
75. ough or interrupted the surrounding loop gas will rush in and affect the reading again usually higher than actual With some practice you will learn to keep a steady and slow inhalation and get accurate results If you are at 40 m with air in your dil your display should read 0 21 x 5 BAR 1 05 or close to it Providing this works out what exactly do you know You know that your sensors ready accurately at 1 05 PO2 and you get an opportunity to compare the sensors response times against each other If one cell shows abnormally long time to respond repeat but this time you inhale forcefully to blow away moisture on the sensor membranes that could cause the slow response time Next repeat instant cell validation If the sensor is still slow make a mental note to replace it finish the dive on the CCR but use frequent cell validations and follow the good cell If in doubt Bail out Needless to say if both sensors fail BAIL OUT As instant cell validation is no guarantee a sensor works fine over its entire range but only at the Po2 you expose it to it is important to always perform the 3 point linearity check in the beginning of the dive This means expose the sensors to a known gas at a known depth After practicing flushing the loop with O2 at the surface for your 24 point linearity check you will know it requires 4 5 flushes to get reasonable purity of O2 in the 2007 Rebreather Lab Co LTD 40 Pelagian DCCCR Operations Manual CCR
76. put all components in its correct position 28 What is the EAD for a dive to 30 meters using a 1 5 set point corrected for nitrogen 29 What is the EAD for a dive to 30 meters using a 1 3 set point corrected for nitrogen 30 What products can be used to disinfect the rebreather What parts should be disinfected 31 What is the by product of the reaction process across the scrubber granular bed 32 Why is it necessary to calibrate the oxygen sensors and how often should it be done 33 A Explain a simple way of validating the sensor read outs during a dive on a Pelagian DCCCR 2007 Rebreather Lab Co LTD 61 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam B In what events should you validate your sensor read outs C How does moist on the sensor faces affect the PO2 display read outs D During a dive what can be done to remove moist from the sensor faces 35 What is the minimum PO2 of oxygen needed to prevent hypoxia 36 A diver undertakes a dive to 25 meters for 25 minutes with a set point of 1 3 BAR PO2 What is the divers CNS loading 37 If the diver increased the set point to 1 5 for the same dive what would be the new values for the CNS loading 38 List your pre dive safety checks on a Pelagian DCCCR Be detailed and list WHY you are doing a certain check List the checks in the correct order for the sake of efficiency 39 List your actions fo
77. r a post dive rinsing break down and maintenance 40 What is the correct intermediate pressure of the Pelagian DCCCR oxygen regulators first stage 2007 Rebreather Lab Co LTD 62 Pelagian DCCCR Operations Manual Pelagian DCCCR Diver Final Exam 41 How would setting the intermediate pressure higher than recommended affect the O2 dosage 42 Is the oxygen first stage regulator on a Pelagian DCCCR depth compensating like a normal SCUBA regulator or is it not responsive to ambient pressure changes like a medical O2 regulator 43 Providing the needle valve setting is un altered how does this affect the dosage of oxygen as you go deeper 44 Providing the needle valve setting is un altered how does this affect the dosage of oxygen as you go shallower 45 In what way can you compensate for this what you answered in question 44 using the needle valve 46 List the three physical factors of the O2 feed system which determine the dosage of oxygen to the breathing loop 4T By how many percent meter does the O2 dosage increase by diving deeper 48 A diver s metabolic rate at rest is 0 6 Ipm at the surface He is planning a dive to 40 msw Before the dive he wants to adjust the flow of the needle valve to supply an O2 dosage of the surface equivalent of 0 5 Ipm at max depth What flow should he adjust the needle valve to 49 You are at 16 meters and your PO2 displays read 1 200 The needle is set perfect for 16 m
78. r depth Open the needle slightly 10 Valve shut downs Practice speed Physically check that valves are open on completion 11 Flash cards Hi Low Po2 Look for solution thinking Po2 is 1 4 adjust Po2 Po2 is 1 8 bail out check unit flush check Po2 and go back on loop etc 12 Instant Cell Validation 13 Ascent 2007 Rebreather Lab Co LTD 46 Pelagian DCCCR Operations Manual 14 O2 flush Ascend to 5 m close DILUENT and purge loop with O2 Note BEFORE skill practice commence hold on to a shot line to prevent sinking with high set point in the loop 15 Safety stop 5 min at 6 meters at set point 1 5 BAR Po2 16 Surface Open Water Dive 4 Use flow chart to work out what surface flow makes up for metabolic rate of diver at rest at max depth Set flow and reinforce taking a mechanical reference of the setting Entry Enter water breathing from bail out reg 100 02 in the loop DILUENT tank valve closed and DILUENT line pressure purged 2 Descent Descend to 6m while breathing the OC bail out Ad O2 to loop to arrest descent speed 3 3rd Point Cell Linearity Check Ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth before going to loop Open DILUENT and bring down Po2 to 0 7 BAR Po2 4 Bubble Check 5 Descent to max depth see general CCR standards 6 Instant Cell Validation 7 Setpoint Bring loop to set point 1 2 BAR Po2 while maintaining d
79. r valve is shut the remaining gas would still be available by feathering the cylinder valve when diluent gas is needed If you can reach an in line shut off valve it could make things easier while exposing the O2 sensors in pure oxygen in the beginning of the dive 3 point linearity check and on ascents especially while doing O2 flushes If you install an in line shut off valve you should also install an over pressure relief valve on the diluent 1s stage Instant Cell Validation The second function of the ADV is provide a simple means to verify the accuracy of the oxygen sensors during a dive As mentioned in the Set up chapter oxygen sensors are unreliable and your best defense is to check them frequently Additionally during the course of a dive every time the ADV triggers the diluent gas from the ADV ends up right in front of the O2 sensors If you have a look at the display when this happens you will see how the Po2 is affected A pro active way to really find out if the sensors make sense is to have the diluent FgO2 x ambient pressure pre calculated in 5 m increments on your wrist slate or wet notes Then go to the nearest depth and exhale half a breath from your nose and inhale slowly If you inhale very slow for 10 seconds you will get a very accurate reading If your inhalation is a bit fast you will get a slightly higher reading than actual PO2 due to increased pressure caused by the flow If you don t keep the inhalation long en
80. s rebreathers have two variants the Electronically Controlled Closed Circuit Rebreather ECCR or the Mechanically Controlled Closed Circuit Rebreather MCCR Electronically Controlled Closed Circuit Rebreather In an ECCR the oxygen level in the breathing mix is controlled by a computer and an electromagnetic solenoid valve set up to maintain a constant partial pressure of oxygen in the breathing mixture regardless of the diving depth This makes it possible to always have the optimum breathing mix similar to an open circuit diver carrying several cylinders with various gas mixtures The desired partial pressure of O2 or set point is programmed by the diver before the dive and typically three oxygen sensors placed inside the breathing circuit inform the computer of what the current PO2 is If the PO2 is less than the set point the solenoid valve opens to let more O2 in to the breathing loop The reason three oxygen sensors are used is to allow voting logic determine your fate For example if two sensors read 1 3 BAR PO2 and the third sensor reads 0 16 BAR PO2 there is a 2 1 chance the third sensor is wrong Therefore you will not get any more oxygen Of course if the third sensor is in fact correct and the other cells are wrong you are in for a long sleep The main advantage is that the computer usually does maintain the PO2 leaving the diver to explore and have fun during the dive The disadvantage is that the diver easily
81. s to remove water from it and this is a valid enough reason to cut the threads anyway Picture showing all 3 oxygen cells trimmed and installed correctly into lid In this picture an optional 90 elbow has been fitted to allow a cleaner hose routing Note At this stage the oxygen cells should be marked with an indelible pen with the date of installation 2007 Rebreather Lab Co LTD 21 Pelagian DCCCR Operations Manual Loop o rings With the exception of the internal o rings in the DSV all loop o rings will need to be installed The Pelagian DCCCR uses double o rings on most dynamic seals meaning the seals that rotate with movement Static seals use single o rings but are not subject to much wear or movement Open the provided o ring kit and put the o rings on a clean surface You should have 8 small o rings for the T pieces and P plugs 4 o rings for the scrubber Head and bottom plug and 1 o ring for the Co2 tube socket located next to the cell 1 socket Inspect all o rings for damage apply a small amount of lubricant clean the o ring groove with a lint free cloth and install the o rings The Head and bottom plug o rings needs generous lubrication to make disassembly easier All o rings should be inspected for wear at regular intervals and replaced if necessary Annual replacement is recommended even if the o rings may appear to be ok AWARNING Failure to install all o rings will flood the rebreather which can resu
82. sign stand point is to place it in a position where it is most useful As the Pelagian DCCCR is designed to cater to divers who enjoy spending most of their dive in a sensible horizontal swimming position the ADV is noticeably hard to trip in this position In a vertical position which is more suitable for a descent it is much easier to draw a breath from it If you are descending in a horizontal body position and feel too much inhalation resistance on the way down simply assume a temporary vertical position when inhaling If this doesn t help your ADV needs some tuning A quick fix is to adjust it from the outside by using a dedicated tool used to tune 24 stages while the ADV is pressurized from the diluent 1 stage If you have access to such a tool try the following 1 Before turning the cylinder on make a mental note of the starting position after feeling where the adjustment tool notch slips in to the slot of the ADV s adjustable crown 2 Open the cylinder and slowly open the crown anti clock wise until a leak is heard Then go back clock wise until the leak stops and an additional 1 8 clock wise turn 3 Compare this setting with the initial If your new setting is more anti clock wise than the old it is worth to test this setting in the water If not you will need to open the ADV cover and unscrew the small Nyloc nut a quarter turn This reduces the tension on the lever spring but will require additional adjustment of the crown to
83. t Ad O2 to loop to arrest descent speed 3 3rd Point Cell Linearity Check Ensure loop is at ambient pressure and check that all cells read ATA X Loop FgO2 Ascend to safe switch depth before going to loop Open DILUENT 4 Bubble Check 5 Rescue At max depth 6 m approach unconscious CCR diver evaluate arousal note Po2 secure DSV if not dislodged If OC CC option is fitted switch to OC Do not remove DSV Cradle tanks from behind Initiate positively buoyant ascent by inflating casualty s wing Once loop expands vent by tilting casualty s DSV or tilt left and dump At surface inflate wing close and remove DSV alert boat and commence resuscitation and tow 6 Descent 7 Co2 Breakthrough Scenario 1 Flash card head ache increased breathing rate Student should bail out Flash card bail out depleted Student should check Po2 go back to the loop flush loop use open loop mode or on board OC and signal end the dive Cut Note If student signals share air give credit but signal back buddy gone 8 CCR Gas Leak Scenario 2 Flash card GAS LEAK while purging students ADV student should shut down O2 and DILUENT valves bail out to OC vent loop volume and check SPGs and Po2 display Instructor points to the dropping O2 SPG Instructor use flash card for Bail out gas depleted Student should open the DILUENT valve flush the loop check Po2 display go back to the loop feather O2 valve back to set point and sig
84. take up slack in the lever If this step is omitted the lever s relaxed position will be too far from the membrane with a resulting stuttering gas delivery on activation If you have no prior experience adjusting regulators ask your instructor for advice during your course For future fine tuning of the ADV a lot of trial and error is needed and every new adjustment needs to be tested in shallow water before any more challenging dives are attempted It is quite normal for novice CCR divers to feel the ADV is set too tight after the first pool session Do not compare the sensation of inhaling from the ADV with a high performance 24 stage If the ADV would breathe that well it would be next to impossible to keep it from firing when you don t want it to Breathing directly from the ADV for extended periods is not what it is designed for and only a very last resort in an emergency where all other options have failed In this event you are heading for the surface In a vertical position As you know by now a CCR diver uses a fixed PO2 thought out the dive As the ADV is particularly trigger happy in a vertical body position it can be challenging to prevent the ADV to ad diluent gas when you are ascending As ambinent pressure drops so does the loop PO2 so you will need to exhale from your nose in order to make space for additional manually added O2 to keep the loop at set point As you exhale from your nose you are temporarily creating a lower pr
85. to the needle valve setting the increase decrease is 1 per meter between the surface and 90 m This is the depth range where the mass flow is sonic or linear Between 90 m and deeper the mass flow will become sub sonic which simply means it will still always increase by diving deeper but gradually less and less per meter If you bring your Pelagian DCCCR O2 fs stage regulator for service you should point out that you would like to have the IP set to 9 BAR If the IP would be set higher or lower the increase decrease in mass flow will no longer be 1 per meter The 1st stage regulators of the Pelagian are not environmentally sealed in order to prevent the inherent IP boost While many experienced Pelagian divers tend to favor adjusting the needle valve on the fly there are times when this is impractical due to task loading wearing dry gloves or simply due to highly variable work load For these events a better option is to adjust the needle valve before the dive to match your metabolic rate at rest at the maximum planned depth As the PO2 drops during your ascent you can simply add more oxygen to the CCR by pressing the manual bypass valve while confirming the Po2 on the displays The correct way to add oxygen with the manual bypass is in short bursts mixed with 3 4 breaths in between every injection Watch the display and you will see the Po2 rise after the initial breaths as the portion of O2 hits the O2 sensors The Po2 will then drop with
86. tom screen Rotate as necessary to line up bottom screen and CO2 tube with exhaust port of the Head Insert top lid into scrubber and re check that assembly is straight and true by inserting the Scrubber lock screws remove bottom lid to aid fine adjustment if necessary Once aligned add funnel through inhale P connector port Fill scrubber through funnel approximately 1 3 full Tap the scrubber body as appropriate Add additional sorb until 2 3 s full and tap down once more Remove scrubber Head and add additional sorb until just below the top screen alignment line Insert the top screen mesh down and tap until the top of the top screen is aligned with the line To help in the removal and replacement of the scrubber head complete the filling procedure with both the scrubber head o rings removed Additionally lubricating the CO2 tube s sealing o ring will make it easier to remove the Head The scrubber tube has an alignment line inside that should be level with the top of the top screen Loose fills can cause channeling leading to CO2 bypass and hypercapnia 2007 Rebreather Lab Co LTD 25 Pelagian DCCCR Operations Manual Finally add both scrubber head o rings to the lid a shine of grease on these o rings will help with subsequent removal Carefully push the scrubber head into the scrubber tube Insert the two scrubber head retaining bolts and tighten You are now ready to assemble rest of the unit
87. uld lead to the need of water breathing not recommended PO2 Derivation A major benefit of Closed Circuit equipment is the ability to maintain a fixed pressure of oxygen known as Po2 or set point throughout the dive Tradition has dictated using lower po2 s such as 1 1 1 3 po2 for the bottom depth of the dive switching to higher pressures of oxygen 1 3 1 4 during the decompression or safety stop phase Using the manual addition button or needle valve of the Pelagian unit allows the user to add and maintain a set point fairly easily with practice but users most pay extremely close attention to the dual Po2 display at all times to ensure that the set point stays where needed Extensive dive time particularly cave diving or wreck dives in relatively deep water will require lengthy decompressions and fall outside the scope of this user manual New users of the Pelagian CCR should stay within the no decompression limits of an air table for at least 20 hours of use The no decompression limits recommended are those provided by a reliable air table such as the Buhlmann tables located in the appendix of this manual New divers or those moving from electronic CCR to manual CCR should practice their po2 maintenance extensively using the manual addition and or needle valve so that they can reliably maintain their desired set point accuracy throughout the entire dive with plus minus 0 1 bar po2 variation After 20 hours of use it would be acceptable to
88. urse 2007 Rebreather Lab Co LTD 19 Pelagian DCCCR Operations Manual Component preparation One of the goals with designing the Pelagian DCCCR was to make it compact and light weight without impacting on dive duration The inherent disadvantage is that space is very limited and you will have to prepare and even modify some components before you can assemble your rebreather Sensors The fuel cells will come in vacuum sealed bags with serial number and a date code labeled Before you open the bags take a look at the date code where the letter is a month and the number is the year For example A5 means it was manufactured in January 2005 Teledyne rate their cells for 24 months shelf life but you will want to have fresh cells If the date is older than two years you should return them before you open the bag Providing the date is ok you can open the bag Now you will need a volt meter to measure the output across the positive and negative pins They are the outermost pins and it does not matter if you reverse the polarity of the probes You should get 7 13 mV If lower than 7 mV return the cell for replacement Exhale close to the cells membrane and check that the mV drops Wave your hand in front of the membrane and check that the fresh air brings the mV back to where it was The output might rise a tiny bit over the next few days After a week they are stabilized and then slowly decay during their lifespan They are rated for
89. weak areas of understanding It is open book open tables and should be used as a learning tool Conventions Some questions use a set point of 1 5 BAR PO2 For real dive planning the highest recommended set point is 1 8 BAR PO2 during the bottom phase of the dive For air computations use 2196 O2 and 79 N2 Use formulas for all questions Leave two decimals in your answer Do not round up or down All questions assume using the Pelagian DCCCR without a PO2 reading dive computer and bail out regulator wing dry suit connected to off board cylinder s 1 What is the meaning of SETPOINT Explain the difference of set point with an electronically controlled CCR and the Pelagian DCCCR 2 Can you calibrate your PO2 Displays to 1 3 BAR O2 on the surface 3 If you have 90 oxygen in your oxygen cylinder and calibrate your PO2 Displays to read 1 000 BAR PO2 at the surface would the real PO2 value be higher lower or the same as your display readout 4 When running a set point of 1 2 BAR PO2 what do you use as the worst case PO2 value for A CNS management B Decompression NDL management 5 By what means is the set point on the Pelagian DCCCR maintained A Tools provided with the rebreather B List the most important tool that is not included with the rebreather 6 When manually adding oxygen it takes a few breaths for the oxygen to blend with the gas in the breathing loop A Describe the proper way of adding O2 to prevent a too
90. xt few minutes and repeat if needed Finally if you find yourself confused about what to do at what time a simple approach is to eliminate the needle valve setting by closing it fully Next get to set point using manual O2 bypass valve and ADV Now you know that the Po2 will drop a bit faster than 2007 Rebreather Lab Co LTD 41 Pelagian DCCCR Operations Manual when using the needle valve and that means you have to push the manual bypass a bit more frequently That s all 2007 Rebreather Lab Co LTD 42 Pelagian DCCCR Operations Manual Section 7 Diving the Pelagian DCCCR Pelagian DCCCR Skills Confined Water 1 ORIENTATION Lay negative on bottom in shallow water to find min loop volume try ADV out and practice manually keeping set point of 0 8 bar Po2 Practise reducing Po2 by ADV Adjust low anchor point of counter lungs as needed to reduce float and spring effect Needle valve closed Bubble check 2 Bail Out In Stationary Position Shallow water Stress checking Po2 before going back to the loop 3 Mask Clearing amp Mask Removal Shallow water 4 Hovering Stationary Shallow water 5 Swim while keeping set point with closed needle Focus on trim comfort and buoyancy Shallow water 6 Descent Stress vertical position to reduce WOB during ADV addition Deep water max 6 m 7 Set Point Toggle Maintain 0 6 BAR Po2 for a few minutes while swimming and keeping depth constant T
91. y not encouraging but the fact is that rebreathers have claimed the lives of many divers regardless of experience level Your life is worth a lot more than money Your life is in your own hands You have been warned 2007 Rebreather Lab Co LTD 2 Pelagian DCCCR Operations Manual Warnings All diving is associated with the risk of injury or death Rebreather diving carries inherent risks which may result in a number of different physiological problems These include but are not limited to gaseous conditions which may not become obvious to the diver and can result in confusion panic loss of consciousness and death Rebreather specific physiological hazards include and are not limited to the following Hypoxia Hyperoxia Oxygen Toxicity Hypercapnia Respiratory airway and lung damage from inhalation of absorbent Drowning AWARNING It is imperative that all pre dive checks are conducted before diving During normal diving operations further checks and monitoring should be made on every dive in addition to those made pre dive Displays should be monitored regularly and sensor integrity verified with instant cell validation AWARNING This manual is a work in progress and this version may contain information that has not yet been proof read for correctness or accuracy Make sure to check crucial information with your instructor before any in water activites 2007 Rebreather Lab Co LTD 3
92. you are on a rocking boat it will be easier to flush the rebreather loop 4 5 times with oxygen but you will likely use more gas The third check point for linearity is easily made under water with the loop filled with pure O2 Your instructor will show you how this is done A healthy cell might need its calibration adjusted slightly every 3 4 weeks If you have to adjust very often the cell has reached the end of its useful life Oxygen sensors should be replaced every year or as soon as they seem unreliable To avoid both sensors dying during the same dive it is wise to stagger their replacement AWARNING Failure to verify calibration and linearity of the oxygen sensors before each dive can lead to hypoxia and or hyperoxia which can result in your injury or death The ADV Auto Diluent Valve is factory installed in the scrubber lid but needs to be adjusted for optimal performance by the end user with instructor supervision The internals of the ADV are standard demand valve regulator components In Line adjustment tools designed for real time adjusting are highly recommended for this process your instructor will loan this tool and advise on its usage Some subsequent adjustment maybe be necessary to achieve the ideal setting ADV should trigger easily when diver is in vertical position but become stiffer with diver in horizontal position 0 Tighter 2007 Rebreather Lab Co LTD 31 Pelagian DCCCR Operations
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