This course is designed for certified Open Water Divers who are interested in exploring technical diving. The SSI CCR Hypoxic Trimix course will introduce you to the use of a Closed Circuit Rebreather (CCR) for diving, and will teach you how to safely use trimix gas mixtures with an oxygen partial pressure of less than 1.4 bar.
You will learn about the principles of CCR diving, and how to safely use and maintain your CCR. You will also learn how to plan and execute dives using trimix gas mixtures, and how to deal with the potential hazards of diving with an oxygen partial pressure of less than 1.4 bar.
This course includes 4 dives, and you will need to have a minimum of 10 hours of CCR diving experience to enrol.
Take your technical diving to the next level with SSI’s CCR Hypoxic Trimix course in Bali. This course will teach you how to safely and effectively use a closed-circuit rebreather (CCR) for dives deeper than 40 meters. You will also learn how to use trimix — a mixture of oxygen, nitrogen, and helium — to extend your dive time and minimize narcosis. This course is perfect for experienced divers who want to push their limits and explore the underwater world to its fullest.
The SSI CCR Hypoxic Trimix (Bali) course is a comprehensive course that covers all aspects of closed-circuit rebreather diving, including hypoxic diving. The course is taught over four days, and includes both classroom and practical components.
The first day of the course is dedicated to theory, and covers topics such as gas laws, dive planning, and emergency procedures. This is followed by a day of practical training, which includes setting up and using a rebreather, and diving in a controlled environment.
The third day of the course is devoted to diving in a hypoxic environment, and includes both classroom and practical components. The classroom component covers topics such as the physiology of hypoxia, and the practical component involves diving in a hypoxic environment.
The fourth and final day of the course is dedicated to emergency procedures and includes both classroom and practical components. The classroom component covers topics such as emergency ascent and gas management, and the practical component involves simulated emergency situations.
If you want to push your diving to the next level, then taking the SSI CCR Hypoxic Trimix (Bali) course is a great way to do it. Here are 5 reasons why:
1. Learn how to safely dive using trimix, which is a mixture of oxygen, nitrogen, and helium.
Trimix diving is a type of diving that uses a mixture of oxygen, nitrogen, and helium. This mixture allows divers to safely dive to depths that would otherwise be too deep for oxygen alone. Helium is added to the mixture to help offset the narcotic effects of nitrogen at deeper depths.
2. Get certified to dive deeper than ever before – up to 150m!
The CCR Hypoxic Trimix course is designed to give divers the skills and knowledge needed to safely dive to depths of 150m using a closed circuit rebreather. The course covers a range of topics including gas management, dive planning, emergency procedures and decompression theory.
3. Explore new and exciting dive sites that are only accessible to CCR divers.
The advantages of diving with SSI CCR Hypoxic Trimix (Bali) are many. Divers can explore new and exciting dive sites that are only accessible to CCR divers. The use of a closed circuit rebreather eliminates the need to worry about decompression sickness, and the use of trimix allows divers to stay at deeper depths for longer periods of time.
4. Learn how to manage your gas supply and stay safe in the event of a power outage or other emergency.
5. Meet other like-minded divers and make new friends who share your passion for diving.
The SSI CCR Hypoxic Trimix course in Bali is an excellent opportunity to learn about and experience technical diving in a safe and controlled environment. You will have the opportunity to meet other technical divers and make new friends, who share your passion for diving. The course will also teach you how to safely dive using trimix, which is a mixture of oxygen, nitrogen and helium. This course is perfect for those who want to learn more about technical diving and experience all that it has to offer.
Diving with a closed circuit rebreather (CCR) on hypoxic trimix (a gas mixture containing less than 21% oxygen) presents a unique set of challenges and risks. The most significant of these is the risk of oxygen toxicity, which can occur when diving on gas mixtures with a high percentage of oxygen.
While oxygen toxicity is a risk when diving on any gas mixture containing more than 21% oxygen, it is a particularly significant risk when diving on hypoxic trimix, as the high percentage of oxygen in the gas mixture can increase the likelihood of oxygen toxicity occurring.
In order to mitigate the risk of oxygen toxicity, it is important to understand the factors that can contribute to it occurring, and to take steps to minimise the risks.
Factors that can contribute to oxygen toxicity
There are a number of factors that can contribute to oxygen toxicity occurring when diving on hypoxic trimix. These include:
– The percentage of oxygen in the gas mixture. The higher the percentage of oxygen in the gas mixture, the greater the risk of oxygen toxicity occurring.
– The depth of the dive. The deeper the dive, the higher partial gas pressure as this will affect how you plan your dives.
The goal of this topic is to provide first aid for decompression sickness.
Decompression sickness (DCS) is a condition that can occur when a person ascends too quickly from a deep dive. DCS occurs when dissolved nitrogen in the blood forms bubbles, which can block blood vessels and cause tissue damage. Symptoms of DCS include joint pain, skin rashes, and paralysis. DCS can be fatal if not treated immediately.
First Aid for Decompression Sickness
If you suspect that someone has decompression sickness, it is important to seek medical help immediately. The person should be placed in a supine position and given 100% oxygen to breathe. If the person is in pain, they may be given analgesics. If the person is paralyzed, they should be placed in a position that will keep their airway clear.
It is important to keep the person warm, as DCS can cause the body to go into shock. The person should be placed on a firm surface and covered with blankets. A warm bath may also be helpful.
If the person is having difficulty breathing, they may be given a positive pressure ventilator. This is a machine that helps to