TDI CCR (Rebreather) Mod 1 course in Thailand
Technical divers study the delicate art of closed circuit rebreather diving
Koh Tao, Thailand
Big Blue Tech celebrates the successful graduation of Nick Amidy, Tony Alba and Thomas Hallstrom from their TDI Mod 1 ISC Megalodon CCR course conducted over 5 days on Koh Tao Island in the Gulf of Thailand. This course was also attended by Ben Reymenants, Simone Reymentants and Kris Harrison.
The CCR Mod 1 course is the first certification level for divers wishing to learn the safe assembly, use and diving of a closed circuit rebreather issued through technical diving certification agency TDI (technical diving international)
Military, photographic, and recreational divers use a CCR (closed circuit rebreather) because they allow long dives and produce no bubbles. Closed circuit rebreathers generally supply two breathing gases to the loop: one is pure oxygen and the other is a diluent or diluting gas such as air or trimix.
The major task of the fully closed circuit rebreather is to control the oxygen concentration, known as the oxygen partial pressure, in the loop and to warn the diver if it is becoming dangerously low or high. The concentration of oxygen in the loop depends on two factors: depth and the proportion of oxygen in the mix. Too low a concentration of oxygen results in hypoxia leading to sudden unconsciousness and ultimately death. Too high a concentration of oxygen results in hyperoxia, leading to oxygen toxicity, a condition causing convulsions which can make the diver lose the mouthpiece when they occur underwater, and can lead to drowning.
In fully automatic closed-circuit systems, a mechanism injects oxygen into the loop when it detects that the partial pressure of oxygen in the loop has fallen below the required level. Often this mechanism is electrical and relies on oxygen sensitive electro-galvanic fuel cells called “ppO2 meters” to measure the concentration of oxygen in the loop.
The diver may be able to manually control the mixture by adding diluent gas or oxygen. Adding diluent can prevent the loop’s gas mixture becoming too oxygen rich. Manually adding oxygen is risky as additional small volumes of oxygen in the loop can easily raise the partial pressure of oxygen to dangerous levels.
The course started with a session in the swimming pool where students starter to learn the fundamental skills related to all rebreathers before progressing on to open water diving.
The successful completion of the Mod course signals the start of Mod 2 where all the students progress on to decompression diving on a ISC Megalodon CCR
The BSAC Advanced Nitrox Diver Course in Thailad
The British Sub Aqua Club Advanced nitrox course provides technical diver training in thailand.
Koh Tao, Thailand
Big Blue Tech celebrates the graduation of Kelli Bennet, Colin Thompson and Soren Egeberg from their BSAC Advanced Nitrox Diver Course conducted over 3 days by BSAC Advanced nitrox instructor Ash Dunn on Koh Tao Island off the coast of Thailand.
The BSAC Combined Nitrox course gets you qualified to dive safely using multiple cylinders containing nitrox mixes of up to 50% oxygen, executing decompression dive profiles.
It’s your first big step into deep sea technical diving, giving you longer at depth, enhancing safety and opening up new and challenging dive sites.
The BSAC Combined is made up of two separate courses – the BSAC Nitrox Diver course and the BSAC Advanced Nitrox Diver course. You’ll undertake a mix of theory, skill development and open water sessions.
After a course orientation, you’ll review some basic physics principles and learn the benefits of diving with nitrox.
Then you’ll practice calculating maximum operating depths for different nitrox mixes and take a look at the physiological effects of breathing nitrox at depth – both benefits and potential problems.
You’ll discuss the special equipment considerations of diving with nitrox blends containing more than 40% oxygen, and learn about procedures for mixing and analyzing nitrox. Finally you’ll cover organization and management of nitrox diving activities, before sitting an exam.
First is learning to don and adjust multiple cylinders before entering the water working on your buoyancy control. Then you will be practicing executing your planned dive profile, performing gas switching procedures and managing you breathing and deco gases.
You’ll perfect decompression stop procedures necessary for a safe ascent, incorporating gas consumption checks, which will allow you to plan future dives with greater accuracy.
You’ll need to demonstrate mastery of these techniques, planning and executing decompression dive profiles to perfection before being signed off as a BSAC Advanced Nitrox Diver.
Qualifying as a BSAC Advanced Nitrox Diver opens up the opportunity to dive deeper, accessing more challenging sites.
Deep wreck sites which are numerous throughout Thailand and South East Asia – qualifying as an Advanced Nitrox diver takes you to the cutting edge of recreational diving.
The TDI Intro to Tech diving course
TDI Intro to Tech introduces divers to technical diving using twin sets on hogarthian style gear.
Koh Tao, Thailand
Big Blue Tech celebrates the graduation of Aida Karamesic and Chris Taylor from their TDI Intro to Tech course conducted over 2 days by TDI Instructor Ash Dunn on Koh Tao Island off the coast of Thailand.
Aida Karamesic is currently enrolled in a professional dive leader internship and Chris who is a BSAC instructor is doing his SSI Instructor Crossover before progressing on to a BSAC Advanced Nitrox Course later this week.
Ever wondered if twin set diving is for you? This course is an introduction to the skills involved in diving on a twin set, including kit configuration and emergency procedures. It will develop your practical knowledge of twin set diving and is a great way to increase your dive skills.
Initially the divers struggled with the change in buoyancy and control but improved by the second day with backwards fining and other advanced propulsion and trim techniques.
Also on the second day on the way to the dive site Green Rock the students were treated to a pod of false killer whales , which look like dolphins, that have been attracted by the change in the winds which bring food and nutrients in the currents closer to Koh Tao. Normally technical divers don’t find the same fascination with fish as other divers, it’s typically wrecks and caves that create allure but these animals were not fish so everyone was allowed to enjoy it.
There are several advantages to diving with a twin set including more available gas, extra supply for safety and stability underwater. The course is designed to familiarize divers with the skills, knowledge, planning, configuration, hazards and benefits of diving with twin scuba cylinders.
You will also learn how to calculate your surface air consumption rate in order to estimate your gas supply requirements for a given depth and time.
Once qualified you will be able to plan, organize and conduct safe dives using a twinset.
Thanks to Soren Egeberg for the pictures, he joined the course as a refresher before starting his BSAC Advanced Nitrox Course.
BSAC ERD (Extended Range Course) in Thailand
British sub aqua club technical diving course completed in South East Asia
Koh Tao, Thailand
Big Blue Tech celebrates the successful graduation of Daniel Mabellis from his BSAC Extended Range course conducted over 4 days on Koh Tao Island off the coast of Thailand by BSAC Extended Range Instructor Ash Dunn and assisted by Mark Slinn and Duncan Tyler.
The BSAC Extended Range Diver [ERD] course is a full technical diving qualification, enabling you to make deep decompression dives using high percent oxygen nitrox mixes [up to 100% O2] to accelerate your decompression stops during ascent.
The course includes theory, shallow water skill development and executing open water dives to a maximum depth of 50 metres.
In the practical sessions, Daniel make a series of dives, working progressively deeper to a maximum depth of 50 metres.
Daniel practiced and mastered many skills such as safety checks and visualization techniques, dealing with out of air situations and gas switching.
Daniel also practiced fitting and removing stage cylinders underwater, deploying a delayed SMB from depth, ascent procedures and proper position for decompression stops.
Gas management and use of run time slates was important, plus utilizing lazy shots and decompression trapezes. Daniel worked on underwater navigation at depth, deploying and using distance lines on the bottom, use of jon lines and emergency stage cylinders.
Daniel was also involved in briefing support divers and helping to arrange a deco station and emergency equipment, plus much more.
This is a full-on course, which is very challenging. But once you qualify as a BSAC Extended Range Diver the possibilities are endless – get ready for exploration and adventure!
The course was completed with 2 dives on the Unicorn Wreck off the coast of Thailand, Daniel continues his training with a Trimix course in Singapore on the HMS Repulse wreck.
The Risks of Oxygen at Increased Depth
By Bret Gillian – Undercurrent
Having been engaged in a discussion with a number of readers on Undercurrent’s bulletin board, I’ve become aware of many misconceptions about the real risks related to central nervous system (CNS) oxygen toxicity and the rather benign effects of longer-term “low dose” exposure. Because so many divers use Nitrox these days and therefore are exposed to higher oxygen partial pressures than they would be with regular compressed air, it’s important they understand the basic elements of oxygen physiology. There are real risks if limits are not observed, but they are relatively small and difficult to attain within normal diving ranges and practice. More often than not, unwarranted panic over slightly exceeding a depth can lead to excessive ascent rates, buddy abandonment, or other bad behavior when little risk will actually manifest. It’s a confusing subject and bears some more in-depth discussion.
As divers, we must be concerned primarily with the effects of elevated partial pressures of oxygen that occur as we descend. It’s the partial pressure of oxygen (PO2) that is most critical, not the percentage of oxygen in a mix.
The total pressure exerted by a gas mixture is equal to the sum of the partial pressures of the components of the mixture (oxygen and nitrogen in the case of air or Nitrox), i.e., P = P1+P2+P3 (“P” stands for each individual gas in the total mix), etc. Put simply, as your depth increases, there is a corresponding increase in the partial pressure of oxygen. At the surface we are naturally adapted to PO2 at .21 atmospheres absolute (ATA).
For air, the PO2 at a 66-foot depth in the ocean is expressed as .63 ATA of O2. This is derived from multiplying .21 (the percentage of O2 in air) by the pressure in ATAs: .21 X 3 = .63 ATAs of O2. Though the percentage of O2 in the air we breathe will remain constant, the PO2 will increase with depth. Therefore, when breathing compressed air at 66 feet, we are breathing in three times as much oxygen as we did on the surface.
The Hazard
The CNS is primarily affected in the acute phase, meaning a relatively but high PO2 exposure. Predictable results will follow if oxygen limits are exceeded. You can use the acronym VENTID to help remember the CNS O2 toxicity symptoms
* Vision: any disturbance including “tunnel vision,” etc.
* Ears: any changes in normal hearing function
* Nausea: severity may vary and be intermittent
* Twitching: classically manifest in facial muscles
* Irritability: personality shifts, anxiety, confusion, etc.
* Dizziness: vertigo, disorientation
Even a cursory examination of these effects should illustrate the seriousness of a CNS O2 hit in deep water. Onset and severity of symptoms do not follow any particular pattern, and may vary daily in an individual diver. There may be no warning from less serious symptoms before a full convulsion is precipitated.
Oxygen convulsions, per se, are not inherently harmful but imagine the implications for an untended diver, or even one with a buddy nearby. Management of a patent airway and subsequent rescue in such an extreme situation is nearly impossible, and the diver will almost certainly drown.
Managing Oxygen Exposure
Back in 1971, when I worked on Navy diving projects, the P02 limit was commonly accepted to be 2.0 ATA. Over the years, this was backed off to nearly universal recommendation now of 1.6 ATA, which is the equivalent of 132 feet of depth if you are using Nitrox-32. Yes, you have probably read conservative recommendations to keep your PO2 under 1.4, or even 1.3, but there have been no incidents of oxygen toxicity at 1.6 as long as the time limits are properly observed. The DAN Nitrox Workshop held in November 2000 (I was on the faculty along with other industry experts) universally concluded that a PO2 of 1.6 was an appropriate operational limit for sport divers, thus ending an ongoing controversy.
However, understand that the partial pressure of oxygen only makes up part of the equation for oxygen “dose.” The other variable is time, usually expressed in minutes at a particular PO2. NOAA has published a table (above) that allows quick reference for divers to plan exposures.
While the potential hazard of CNS oxygen toxicity cannot be underestimated, the good news is that the risk to sport divers is almost nonexistent if the NOAA limits are observed since there has never been a sport diving oxygen incident within the NOAA limits.
The “oxygen dose” is sometimes referred to as the “oxygen clock,” which implies the time limits with the PO2. Your Nitrox dive computer stores this information in its memory (along with changeable PO2 settings), and will calculate your exposure. This is usually expressed as a percentage of the maximum dose rather than in a minute “count down” like remaining bottom time. If your diving practice is to avoid decompression, you will never approach the CNS dose limits because your no-deco time limit will always occur first. Because most divers tend to dive in multi-level profiles and don’t spend the entire dive at the maximum PO2, the actual “oxygen clock” rarely will even reach 20 percent of the dose limit.
Note that there is no more danger with a 50-percent exposure to oxygen at 1.6 than there is with a 50-percent exposure at 1.4 or 1.3. It’s the total dose, not the PO2, that determines your risk factor. It’s this distinction that seems to lead to a lot of the confusion and rather absurd suggestions for increased conservatism.
Other Considerations
Susceptibility to oxygen toxicity is increased by other factors. These include elevated carbon dioxide levels caused by hard working conditions or prolonged swimming efforts. Sport divers typically do not approach the exertion levels of actual working divers for which the NOAA/Navy limits were defined.
In fact, most divers swim lazily around the reef or wall, stopping to take photos or simply take in the sights. The most active part of the dive usually occurs at the beginning or end, where some higher swimming exertion happens descending against current, traveling to the starting point, or swimming back to the boat or shore. And this is typically in shallower depths where the PO2 is so low as to be inconsequential. Divers, as a population, really don’t work very hard. A lot of overly shrill cautions about reducing PO2s came from those who had an incomplete understanding of how divers actually dive and what the Navy and NOAA limits were designed for in their original applications.
PO2s will obviously need to be lowered if your dive plan will exceed 45 minutes at 1.6 ATA. But for you folks on single-cylinder, open circuit scuba, whether breathing air or Nitrox, it is virtually impossible to reach the “dose” time limits.
Breathe Easy
Oxygen has certain well-defined risk windows. But the hazards are easily avoidable by ensuring that your dive profiles observe the NOAA limits. Set your PO2 at 1.6; watch your computer display your “dose” accumulation, and do not exceed the maximum depth limit for your Nitrox mix. The depth limit for a 1.6 PO2 exposure on 32-percent Nitrox is 132 feet. If you go deeper, you will not spontaneously combust or go into seizures. But your time limit at increased depths will reduce.
As a general rule, I do suggest observing the 1.6 level for PO2, but don’t panic if you briefly go deeper. Your computer will account for it. And most importantly: breathe in, breathe out, repeat as necessary.
You may also have heard divers refer to tracking their OTUs (oxygen tolerance unit). This refers to another form of oxygen toxicity that occurs on very long exposures at relatively low PO2s. This is primarily a consideration for saturation divers or dealing with patients in recompression chambers. It is impossible for open circuit divers to attain sufficient OTU dose to serve any practical discussion. If you observe CNS limits, OTUs take care of themselves.
You don’t have to take a day off from diving midweek to allow for “oxygen out-gassing,” as one reader was told. As Tony Soprano might say, “Fuggitabout it.”
Bret Gilliam is a 40-year veteran of the professional diving industry. He founded Technical Diving International (TDI) and crafted the standards and procedures for training nitrox divers for that agency. He is extensively published on the subjects of nitrox, mixed gas, rebreathers, technical diving, oxygen physiology, and emergency treatment for divers in recompression chambers and in remote areas where evacuation is not an option. He is credential as a Recompression Chamber Supervisor and Diver Medical Technician.
Wreck owners charge rates for wreck in Thailand
Shipwreck owners attempt to enforce tariff on diving the Mv Sea Chart 1 of the coast of Khao Lak
Khao Lak, Thailand
Big Blue Tech was recently notified by the new owner of the Mv Sea Chart wreck that permission would be required to dive the ship wreck, located 6 miles off the coast of Khao Lak in Thailand, and that this permission would be granted if individuals paid a fee.
Operations manager of Sea-Chart Thailand Mr. Kitipong Suk-Anek said “we have learnt that the wreck
is now a day being interesting / attractive place for those scuba diving coursed also many of independent divers visit there.” meaning that the wreck site had become a popular destination in the region for divers and dive shops.
Mr. Kitipong also said “we will only authorize diving firm who has been approved and
possessing the written permission issue solely by our company against the fees of $ 3,000 USD per year” or “Should you or your company or others party interesting to manage on this biz as our agency we may offer special rate of lumpsum fees at us$30,000 per year” Stating that individuals can pay a single annual fee or an organization can pay a large sum of money and be the administrators of the enforcement.
Typically enforcing such a plan takes a lot of time and money. Daily rates that are already in place for the similan islands would be an appropriate option but with very little oversight into diving operations in Thailand it’s hard to know if this claim is legitimate. With the potential backing of the government and the addition of permanent buoy lines this project might see some success.
In one discussion, Ben Reymenants, Technical Divin Instructor Trainer asked “if a charge is really needed, do you also accept the liability that comes with charging a customer to use your vessel as an attraction?” meaning the company would be responsible for the incidents on the wreck.
This is not a new concept, in the United Kingdom a policy of “receiver of the wreck” is established for government agencies to oversea salvage and recovery operations including access for diving operations. They also record artifact recovery and register it for ownership claim.
The Mv Sea Chart sank in 2009 during a storm while carrying a large amount of Teak logs from Myanmar to Thailand. The wreck gained a lot of interest amongst local technical divers and day trip divers who wanted to dive the massive wreck in the crystal clear waters of the Similan Islands.
Liquidvision X1 Computers in Asia
Popular OLED Computer comes to Thailand with Liquid Vision X1
Koh Tao, Thailand
Big Blue Tech is proud to add another recognized brand of technical diving equipment to our online store and products provided to our customers from Liquidvision.
Liquivision Products, Inc is a manufacturer of high performance diving equipment, based in Burnaby, British Columbia, Canada. Although some product development reaches as far back as 1998, Liquivision was formally founded by Eric Fattah in September 2004. This marked the beginning of a period of intense R&D aimed at designing a top-notch diving computer. The F1 bottom timer was released in April 2005. It was the first dive instrument ever to incorporate an OLED display.
The company incorporated in May 2007, when Margaret Malewski joined as CEO. The X1 trimix CCR computer was launched in October 2007. In addition to the OLED display, it also featured a revolutionary tap-based user interface, enough processing power to run genuine VPM and Buhlmann algorithms, tiny size and a rechargeable battery.
More recent launches include the X-Link Fischer CCR Interface (October 2008) and the Hardwired X-Link CCR Interface (July 2009).
Big Blue Tech have already added the X1 computer to their online shop for 1,520 USD or 47,000 THB.
Thai Navy Divers on Trimix in Koh Tao
Military divers from the Thai Navy discover wreck diving on helium a blast in Thailand.
Koh Tao, Thailand
Big Blue Tech recently supported divers from the Thai Navy who visited Koh Tao to explore deep shipwrecks around Koh Tao and the gulf of Thailand. These divers had been trained by the military and also commercially in the art of mixed gas technical diving and decided they wanted to enjoy some fun diving for a change instead of working underwater.
Big Blue Tech staff Ash Dunn and Mark Slinn accompanied by other technical divers from the community took the divers out to the “Big Blue Wreck” which is a sunken wooden passenger ferry that we discovered in February of this year. In addition to our wreck we showed the divers the highlights of Chumphon Pinnacle and other coral dive sites. And finally a day trip to the Unicorn Wreck which is a large steel wreck in about 50m of water.
The divers decided on using a normoxic trimix mix of helium and oxygen on the Unicorn wreck because of the depth beyond 40m and they wanted to have a clear head to explore the exterior of the wreck. Penetration of the unicorn is prohibited due to the extreme risk of silting and entrapment. In addition to their trimix gas mix the divers used pure oxygen and nitrox to accelerate their decompression.
Chatuphoon Thanomkaew of the Thailand Diving Association and Thai Navy found the days exciting and easy remarking that they were impressed with the support and service provided for them during their short holiday.
Shop for tech and cave diving gear online!
Scuba diving equipment designed for extreme conditions now available online in Thailand!
Koh Tao, Thailand
Big Blue Tech recently received distribution rights for Dive Rite technical and cave diving gear along with Liquid Vision and VR dive computers. This brings a full selection of equipment to our list of existing equipment suppliers including Halcyon, Apeks and OMS dive gear (through alternative distribution).
With the growth of our technical and cave diving equipment we have released an online shop to help our customers in the region get the best equipment for the harsh conditions. Our online shop features purchase through paypal and google checkout with calculated shipping costs.
We’re even extended professional rates to the industry where instructors and shop owners can get discounts on single or bulk purchases.
for more information have a look at our shop at http://www.bigbluetech.net/shop/
