Pitot tubes

Pitot tubes

Discover the effectiveness of Pitot tubes, essential tools for precise and reliable measurements of fluid flow velocity.

What is a Pitot Tube?

A Pitot tube is a device used to measure the velocity of fluid flow, such as air or water. These tubes are based on the principle of Bernoulli to detect the difference between the static pressure and the total pressure of the fluid, providing an accurate measurement of its velocity.

Advantages of Pitot Tubes

Pitot tubes offer numerous benefits for precise measurements. Due to their simplicity and robustness, these instruments are widely used in various applications, such as aerospace, mechanical engineering, meteorology, and industrial plant diagnostics. The measurements provided by Pitot tubes are essential for evaluating flow in ducts, valves, reactors, and HVAC systems.

Applications of Pitot Tubes

Pitot tubes find application in a wide range of industrial and scientific sectors. They are used to measure air velocity in ventilation ducts, water velocity in flow channels, and wind speed in meteorological studies. Additionally, Pitot tubes are utilized for testing the aerodynamic efficiency of vehicles, aircraft, and structures.

How to Choose the Right Pitot Tube

When selecting a Pitot tube, carefully consider the construction material, tube diameter and length, measurable velocity range, and the operating conditions it will be used in. Evaluate the specifications of your applications to find the ideal Pitot tube to suit your measurement needs.

Discover how Pitot tubes can ensure precise and reliable measurements of fluid flow velocity.

Single pitot tubes in stainless steel. They do not require calibration. Precision holes for static pressure. Long-lasting 304 stainless steel construction. Welds in silver for a perfect seal.

Designed for the measurement of the flow of dirty air or gas, with the presence of particulates as happens in drains or chimneys. High dirt resistance, compliant with EPA specifications, 40 CFR.

Ideal for determining the differential pressure and therefore the speed at the entrance of variable volume stations or fans, in air conditioning systems.