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Pipe Sizing Calculator

To size a water pipe, work backward from flow and velocity: pick your peak demand in GPM, cap velocity at 5–8 ft/s, then solve for inside diameter with d = √(4Q / (π·v)). The field shortcut is GPM = 2.448 × d² × v (d in inches, v in ft/s). A free PlumbCalc Pro pipe sizing calculator does this instantly and defaults to the safe velocity. Rule of thumb: 1/2" carries ~4 GPM, 3/4" ~7 GPM, 1" ~13 GPM at a quiet 5 ft/s.

The pipe sizing formula

Every water-supply sizing job comes down to one relationship: flow equals area times velocity.

Always size on the inside diameter (ID), not the nominal size. A "3/4-inch" copper Type L line has a 0.785" ID; PEX and CPVC of the same nominal size run smaller, so they hit peak velocity sooner.

What velocity should I design for?

Velocity is the safety limit that keeps pipe quiet and long-lived. Standard practice:

The statistic that matters: sustained velocity above 8 ft/s can more than double the erosion-corrosion rate inside copper, pitting elbows and pinholing lines years early. That is why our defaults are the safe ones.

"Size for the velocity, not the fixture count alone — a line that flows fast enough to whistle is a line that will leak before its time."

Pipe sizing chart (max GPM by size)

Approximate carrying capacity for common water lines, based on inside diameter. Use the 5 ft/s column for hot and for quiet homes; the 8 ft/s column is the cold-water ceiling.

Nominal sizeTypical ID (in)Max GPM @ 5 ft/s (quiet)Max GPM @ 8 ft/s (peak)Typical use
1/2"0.5453.65.8Single fixture branch
3/4"0.7857.512Small-home main / 2–3 fixtures
1"1.02513212-bath home main
1-1/4"1.2652031Large home / light commercial
1-1/2"1.4812743Multi-bath / branch main
2"1.9594775Building main / irrigation

Values use copper Type L ID. For PEX and CPVC, drop to the next size up when demand is near the top of a row, since their smaller bore raises velocity.

How to size a run in four steps

  1. Total the demand. Add fixture GPM or use water supply fixture units (WSFU) converted to GPM.
  2. Set the velocity cap. 5 ft/s hot, 8 ft/s cold.
  3. Match the chart. Pick the smallest size whose column meets your GPM.
  4. Check pressure loss. Confirm friction loss over the run length still leaves ~40–50 PSI at the fixture.

Run your numbers in the free PlumbCalc Pro calculator — enter GPM and length, and it returns the pipe size, velocity, and friction loss with the safe defaults already dialed in. No sign-up, no callbacks, built by 30+ years in the trades.

Frequently asked questions

What size water line does a typical house need?

Most single-family homes run a 3/4" or 1" main. A 3/4" line handles roughly 7–12 GPM — enough for a small 2-bath home — while a 1" main (13–21 GPM) covers larger homes with simultaneous fixture use. The street-to-meter service is often 1" to protect against pressure drop.

What is the maximum flow through a 3/4-inch pipe?

About 7.5 GPM at a quiet 5 ft/s and up to ~12 GPM at the 8 ft/s cold-water ceiling, based on a 0.785" copper ID. Push it past 12 GPM and you get noise, water hammer, and accelerated erosion.

Do PEX and copper size the same?

No. Same nominal size, different inside diameter. 3/4" PEX has a smaller bore than 3/4" copper, so it reaches max velocity at a lower GPM. When demand is near the top of a size row, step up one size for PEX or CPVC.

How do I convert velocity to GPM?

Use GPM = 2.448 × d² × v, where d is the inside diameter in inches and v is velocity in ft/s. For a 1" line (ID 1.025") at 5 ft/s: 2.448 × 1.05 × 5 ≈ 13 GPM. The PlumbCalc Pro tool does the math for you.