HVAC Duct Sizing Calculator

Size round and rectangular supply and return ducts using ASHRAE equal friction or velocity methods — with velocity checks and pressure drop for any CFM.

Duct Parameters

Segment Type

Airflow (CFM)

CFM

Sizing Method

Design Friction Rate

Target Velocity (FPM)

FPM

Material & Shape

Duct Material

Smooth galvanized sheet metal — baseline friction

Duct Shape

Width (in)

Height (in)

Enter existing duct dimensions to check velocity & pressure drop

Minimum Duct Size

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Round diameter (standard size)

Velocity Check

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Friction Rate

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Velocity (FPM)

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Pressure Drop (/100ft)

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Duct Area (in²)

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Velocity Pressure

Available Round Sizes

Rectangular Equivalents

Duct Run Scheduler

Add rooms or zones to size all supply runs at once. Inherits friction rate and material from the Calculator tab.

CFM vs. Round Duct Diameter

Minimum round duct diameter at your selected friction rate, across a range of airflows. The current CFM is highlighted.

Velocity vs. Duct Diameter

Velocity for your CFM at different round duct sizes. The colored band shows the acceptable velocity range for your duct segment type.

ASHRAE Duct Sizing Reference

Design velocities and friction rates per ASHRAE Handbook of Fundamentals and SMACNA HVAC Duct Construction Standards.

Recommended Velocities (FPM)

Supply main trunk: 600–900 FPM (max 1,200)
Supply branch duct: 400–700 FPM (max 900)
Return main: 500–800 FPM (max 1,000)
Return branch: 400–600 FPM (max 700)
High-velocity systems: up to 2,000–3,000 FPM

Friction Rate Selection

Low-noise residential: 0.06–0.08 in.wg/100ft
Standard residential: 0.08–0.12 in.wg/100ft
Commercial/efficient: 0.10–0.15 in.wg/100ft
Compact / space-limited: up to 0.20 in.wg/100ft
Always check total external static pressure of equipment

Flex Duct Correction

Fully extended flex: 1.5× friction rate of sheet metal
Partially compressed (5%): 2.0× friction rate
Compressed 10%: 3.0× friction rate
Always stretch flex fully before connecting
Maximum recommended length: 14 ft per run

System Static Pressure

Typical residential ESP: 0.5–0.8 in.wg total
Filter pressure drop: 0.1–0.2 in.wg (clean)
Coil pressure drop: 0.15–0.25 in.wg
Grille/diffuser: 0.03–0.08 in.wg
Total = friction losses + fittings + components

Round Duct Sizing Table (0.10 in.wg / 100 ft)

Minimum round duct diameter for standard friction rate. Sheet metal, standard air at 68°F.

How to Size HVAC Ducts

Determine CFM per room — Use a Manual J load calculation or estimate: 400 sq ft per ton of cooling is a common rule of thumb. 1 ton = 400 CFM (roughly).

Classify the duct segment — Main trunk ducts carry total system airflow; branch ducts carry only the airflow for that room or zone.

Choose a friction rate — 0.10 in.wg/100ft is the standard for residential ductwork. Lower rates (0.08) reduce noise; higher (0.12) saves duct space but increases system static pressure.

Select duct material — Smooth galvanized sheet metal is the baseline. Flex duct adds 1.5× friction when fully extended. Duct board is slightly higher than sheet metal.

Read the minimum size — Round up to the next standard duct size. Never use a smaller size than calculated — it increases static pressure and reduces airflow to the room.

Check velocity — If velocity exceeds the recommended maximum for your segment type, increase the duct size even if it passes the friction check.

Duct Sizing Terminology

CFM (Cubic Feet per Minute)Volume of air delivered per minute. Each room's supply CFM is sized to meet its heating/cooling load.

Equal Friction MethodASHRAE's standard sizing method — all ducts sized so friction loss per 100 ft is equal, balancing the system.

Static Pressure (ESP)Total resistance to airflow in the duct system. Must be within the equipment's rated external static pressure range.

Velocity Pressure (VP)Dynamic pressure of moving air: VP = (V/4005)² in.wg. Used to size duct fittings and measure airflow.

Equivalent Diameter (D_eq)The round duct diameter that has the same pressure drop as a given rectangular duct at the same CFM.

Friction RatePressure drop per 100 linear feet of duct (in.wg/100ft). The design parameter for equal friction sizing.

Trunk DuctThe main supply or return duct that carries full system airflow from the air handler to branch take-offs.

Branch DuctA duct from the trunk to an individual room or zone, carrying only that room's portion of airflow.

Frequently Asked Questions

How do I find the CFM for each room?

CFM per room comes from a Manual J load calculation, which accounts for room size, insulation, windows, and climate. As a rough estimate: 1 ton of cooling ≈ 400 CFM total. Divide proportionally among rooms by their square footage. For example, a 200 sq ft room in a 2,000 sq ft house with a 3-ton (1,200 CFM) system gets about 120 CFM. Use this only for preliminary sizing — Manual J gives accurate results.

What is the difference between equal friction and velocity methods?

The equal friction method sizes every duct section to the same friction rate (in.wg per 100 ft), which helps balance airflow without dampers. It's the standard ASHRAE method for residential design. The velocity method sizes ducts to a target air speed (FPM), which is simpler but can result in unbalanced systems. Equal friction is preferred for new installations; velocity works well for quick checks or renovations.

Is flex duct worse than sheet metal?

Flex duct has significantly higher friction than smooth sheet metal — about 1.5× higher when fully extended and stretched tight. Compressed flex duct can have 3× or more pressure drop. This reduces airflow and forces the system to work harder. Flex is acceptable for short runs (under 14 ft) to registers, but main trunk ducts and longer runs should use rigid sheet metal for efficiency and airflow balance.

Can I use round or rectangular ducts interchangeably?

Yes — use the equivalent diameter formula to convert between round and rectangular ducts. A 12×8 rectangular duct has an equivalent diameter of about 10.5 inches. Rectangular ducts fit better in tight spaces (between joists, in walls), while round ducts have less friction and are easier to seal. Choose based on available space, then verify using the equivalent diameter to confirm pressure drop is similar.

Why does the duct velocity limit matter?

High duct velocity increases noise (air rushing sound at registers), increases pressure drop non-linearly (pressure ∝ V²), and can cause turbulence at fittings. Supply branches over 700–900 FPM will often be audible and can reduce comfort. If your calculated size produces a velocity that exceeds the recommended limit for that duct type, select the next larger standard size even if the friction rate check passes.