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  1. Welcome to the Dive Explorer Course!

  2. Deep Adventure Dive

    Introduction to the Deep Adventure Dive
  3. Preparing for Deep Diving
  4. Deep Dive Planning
  5. Deep Adventure Dive Knowledge Check
    1 Quiz
  6. Deep Adventure Dive
  7. DPV Adventure Dive
    Introduction to the Dive Propulsion Vehicles (DPV) Adventure Dive
  8. DPV Safety and Emergency Management
  9. The Basics of DPV Operation
  10. DPV Adventure Dive Knowledge Check
    1 Quiz
  11. DPV Adventure Dive
  12. Drift Adventure Dive
    Introduction to the Drift Adventure Dive
  13. Safety Procedures for Drift Diving
  14. Drift Diving Techniques
  15. Drift Adventure Dive Knowledge Check
    1 Quiz
  16. Drift Adventure Dive
  17. Dry Suit Adventure Dive
    Introduction to the Dry Suit Adventure Dive
  18. Diving in a Dry Suit
  19. Dry Suit Safety and Emergency Procedures
  20. Dry Suit Adventure Dive Knowledge Check
    1 Quiz
  21. Dry Suit Adventure Dive
  22. Multimedia Diver
    Introduction to the Multimedia Adventure Dive
  23. GoPro Basics
  24. Caring for the Environment, Yourself and Your Gear
  25. Multimedia Adventure Dive Knowledge Check
  26. Multimedia Adventure Dive
  27. Navigation Adventure Dive
    Introduction to the Navigation Adventure Dive
  28. Basics of Underwater Navigation
  29. Advanced Compass Techniques
  30. Navigation Adventure Dive Knowledge Check
    1 Quiz
  31. Navigation Adventure Dive
  32. Night Adventure Dive
    Introduction to the Night Adventure Dive
  33. Preparing for Night Diving
  34. Night Diving Techniques
  35. Night Adventure Dive Knowledge Check
    1 Quiz
  36. Night Adventure Dive
  37. Nitrox Adventure Dive
    Introduction to the Nitrox Adventure Dive
  38. Nitrox Diving Fundamentals
  39. Considerations for Nitrox Diving
  40. Nitrox Adventure Dive Knowledge Check
    1 Quiz
  41. Nitrox Adventure Dive
  42. Wreck Adventure Dive
    Introduction to the Wreck Adventure Dive
  43. Emergency Prevention and Procedures for Wreck Diving
  44. Planning and Preparation
  45. Wreck Adventure Dive Knowledge Check
    1 Quiz
  46. Wreck Adventure Dive

Quizzes

  1. Dive Explorer
  2. Deep Dive Planning
Lesson 4 of 46
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Deep Dive Planning

  1. Dive Explorer
  2. Deep Dive Planning

By the end of this lesson, you will be able to:

  • Explain how to plan deep dives
  • Calculate your surface air consumption rate

Planning is a pivotal aspect of deep diving, where meticulous preparation and knowledge are key to a safe and successful dive. In this section, we’ll explore the essentials of deep dive planning, focusing on critical aspects such as gas management.

How to Plan Deep Dives

Objective Setting

Define the purpose of your dive (e.g., exploration, photography, wreck diving). This will guide the specifics of your plan, including depth, duration, and special equipment needs.

Plan your maximum depth and bottom time. Adhere to limits based on your certification level, experience, and comfort. Use a dive computer to determine safe ascent profiles and necessary no-decompression dive limits.

Calculating Air Consumption: Calculate your Surface Air Consumption (SAC) rate to estimate your needed gas. Consider factors like depth, exertion level, and water temperature.

Gas Reserve Planning: Always plan to surface with a reserve, often a third of your starting gas supply.

Coordinate with your dive team. Ensure everyone understands the plan, including depth, time, and emergency procedures.

Ensure all equipment is suited for deep diving and in good working condition. This includes redundancy systems like a backup regulator and an alternate air source.

Calculating your Surface Air Consumption (SAC) rate

Calculating your Surface Air Consumption (SAC) rate is an essential skill for any diver, especially when planning for deep dives. The SAC rate measures your air consumption at the surface, which can be used to estimate how much air you’ll use during a dive at depth. Here’s how to calculate it:

Step 1

Record Your Dive Information

Starting and Ending Tank Pressure: Note the pressure in your tank at the beginning and end of the dive. This should be in Bar.

Dive Time: Record the total time of your dive in minutes, from descent to ascent.

Step 2

Calculate Air Used

Subtract the ending tank pressure from the starting pressure to determine how much air (in bar) you’ve used during the dive.

Step 3

Adjust for Tank Size

Multiply the amount of air used by the tank volume. This gives you the air used in litres.

Step 4

Convert to Surface Consumption

  • To adjust for depth, you need to factor in the pressure at the depth of your dive. Use the average depth of your dive in meters.
  • Convert this average depth to an absolute pressure. Add 1 bar for every 10 meters of depth, 
  • Add the atmospheric pressure (1 bar) to the depth pressure to get the absolute pressure.

Step 5

Calculate the SAC Rate

Divide the total air used (from step 3) by the dive time (in minutes) and then by the absolute pressure (from step 4). This gives you the SAC rate in liters per minute at surface pressure.

Now that you know the steps to calculate your SAC, let’s work through an example:

  1. Air Used: 200 bar – 150 bar = 50 bar
  2. Total Air Used in Litres: 50 bar × 12 litres = 600 litres
  3. Absolute Pressure at 20 meters: 2 bar (for the depth) + 1 bar (atmospheric pressure) = 3 bar
  4. SAC Rate: 600 litres ÷ 40 minutes ÷ 3 bar = 5 litres per minute

This means your SAC rate is 5 litres per minute at surface pressure. Knowing this rate helps you estimate how much air you’ll need for a dive at a given depth, which is crucial for deep dive planning and gas management.

Using Your SAC Rate

To use your Surface Air Consumption (SAC) rate for planning a dive at a different depth, like 30 meters, you’ll follow a series of steps to adjust the rate for the increased pressure at the new depth. Here’s how to do it:

Step 1

Calculate Absolute Pressure at the Planned Depth

Determine the total pressure at your planned depth. For every 10 meters of depth in salt water, add 1 bar to account for the pressure exerted by the water. Don’t forget to include the atmospheric pressure at the surface, which is 1 bar.

Step 2

Adjust SAC Rate for Planned Depth

Multiply your surface SAC rate by the total pressure at the planned depth. This gives you your air consumption rate at that depth.

Step 3

Estimate Total Air Consumption for the Dive

To estimate how much air you’ll use during the dive, multiply the adjusted SAC rate by the total bottom time of your dive at depth.

Step 4

Include Ascent and Safety Stop

Remember to factor in air consumption for your ascent and any safety stops. These are at shallower depths, so the rate will be different from the bottom time consumption rate.

Step 5

Plan for Reserves

Always plan to have a reserve amount of air for emergencies. A common rule is to end your dive with at least a third of your starting air supply.

Calculating the amount of gas you will use at depth ensures you have sufficient gas for the dive and enough reserve in case of emergencies.

Example Calculation

Suppose your SAC rate is 5 litres per minute at surface pressure. You’re planning a dive to 30 meters. Here’s how you apply the steps:

  1. Absolute Pressure at 30 Metres: At 30 meters depth in saltwater: 3 bar (from water pressure) + 1 bar (atmospheric pressure) = 4 bar.
  2. Adjust SAC Rate for 30 Metres: Your adjusted SAC rate at 30 meters: 5 litres per minute (surface SAC rate) × 4 bar (absolute pressure) = 20 litres per minute.
  3. Estimate Total Air Consumption: If you plan to be at 30 meters for 20 minutes, 20 litres per minute × 20 minutes = 400 litres.
  4. Account for Ascent and Safety Stops: Estimate additional air needed for ascent and safety stops. If, say, you’ll spend 5 minutes ascending and at safety stops where the average pressure is 2 bar: 5 litres per minute (surface SAC rate) × 2 bar × 5 minutes = 50 litres.

This example shows how you can use your SAC rate to plan for air consumption on a dive at 30 meters, ensuring you have enough air for the entire dive, including reserves for safety.

How many litres of gas are in your tank?

To calculate the total amount of gas tank filled, multiply the tank volume by the pressure in bar. 

For example, to calculate the total amount of gas in a 12-litre tank filled to 200 bar, you multiply the tank volume by the pressure. In this case, the tank volume is 12 litres, and the pressure is 200 bar. The formula is:

Total Gas Volume = Tank Volume x Pressure

So for your tank:

Total Gas Volume = 12 litres x 200 bar = 2400 litres

A 12-litre tank filled to 200 bar contains 2400 litres of gas. This is calculated by multiplying the tank volume (12 litres) by the pressure (200 bar).

So a 12-litre tank would be sufficient for our requirements of 450 litres of gas for the dive and would provide plenty of backup gas.

Test Your Understanding

Deep Diver Planning KC

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