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**Home ⇒ Overview Courses ⇒ Pneumatics ⇒ Compressed air – generation and treatment ⇒ Dimensioning pneumatic lines**

**Dimensioning pneumatic lines**

**Install main pneumatic pipes:** To avoid entry of condensation in the pneumatic control , the main pipes are gernerally installed are generally with a gradient of 1 to 2%. At the lowest point, a condensate separator has to be installed. Moreover, branches to the control parts have to be inserted on the upper side of the main pipes.

**How to determine the required pipe inner diameter**

The most important criteria for the design of the compressed air supply are:

- The required air volume (volume flow)
- the working pressure (gauge)
- the pipe length
- the maximum pressure drop

Think about that eventually the system will be expanded in the future and more valves and actuators will be connected. The criteria for dimensioning the inside diameter of the pipe are usually:

- arithmetically by means of an approximation formula
- Nomogram (two-dimensional diagram)

*Approach 1:** approximation formula*

*Approach 2: **Nomogram*

**How to use this nomogram:**

- In line A, enter the pipe length and in line B the necessary volume flow. Connect these 2 points and extend this line so reference line 1 is intersected.
- Likewise, connect the points of line E (working pressure) and line G (maximum pressure drop). This results in an intersection on reference line 2.
- The intersections on the reference lines 1 and 2 are connect to a straight line. This line intersects the line D, where you can now read the required inside diameter.

**Work order**

You have to plan an installation of a new compressed air supply. What you know: pipe length 200m, volume flow 1000 m³ / h, working pressure above 5 bar and a maximum pressure drop of 0.1 bar. Calculate the required pipe diameter by using the known approximation formula and check this with the help of the nomogram!

Using the approximation equation:

V = 1000 m³/h __Δ__ 0,278 m³/sec und V^{1,85} = 0,093506

=> di = ^{5}√ [(1,6 x 10³ x 0,093506 x 200) / (10^{10} x 0,1 x 5)] = 0,09 m = __90 mm__

Check it with the **Nomogram**:

In order to take also into account the pressure drop of the pneumatic components as easy as possible, a proper equivalent pipe length is assigned to. Now these equivalent pipe lengths can be added together.

**In general: The pressure losses on components and pipes should not exceed 0.3 bar!**