ENGINEERING – THERMODYNAMIC & HVAC CALCULATOR
Duct Sizing Velocity
A precise tool.
What is the Duct Sizing Velocity & How does it work?
In duct design the most common approach is the airβvelocity method. The designer first selects a comfortable air velocity for the space (typically 600β1200β―ft/min for residential and commercial applications) and then determines the duct crossβsectional area that will carry the required airflow without exceeding that velocity. The relationship between airflow (Q), velocity (V) and duct area (A) is linear and can be expressed by a simple algebraic formula. By rearranging the equation you can solve for the area that will produce the chosen velocity for a given airflow. Once the required area is known, the duct shape (rectangular or round) dictates how the dimensions are derived. For a rectangular duct a common practice is to assume a square shape for simplicity, while a round ductβs diameter follows from the area of a circle.
A = frac{Q}{V}
Q = airflow rate (CFM), V = air velocity (ft/min), A = duct crossβsectional area (ftΒ²)
Parameters
Result
β
Frequently Asked Questions
How do I calculate duct cross-sectional area?
Use the formula A = Q/V, where A is the area, Q is the airflow in cubic feet per minute (cfm), and V is the velocity in feet per minute (ft/min).
What is a typical air velocity for residential applications?
A typical air velocity for residential applications is between 600 to 1200 feet per minute.
How does duct area affect airflow?
Duct area directly affects airflow; increasing the area allows more airflow at a given velocity, and vice versa.
What units should I use for airflow in this calculation?
Airflow should be measured in cubic feet per minute (cfm).
Can you explain the relationship between duct size and air velocity?
The relationship is inversely proportional; a larger duct size allows higher air velocities at the same airflow rate.
Why is it important to consider air velocity in duct design?
Considering air velocity ensures comfortable air distribution and prevents issues like noise or drafts.
How do I adjust the duct size if the calculated velocity is too high?
If the velocity is too high, increase the duct cross-sectional area by selecting a larger duct size to reduce the velocity.
Results are for informational purposes only and do not constitute professional advice.