Siphon Sizing Calculator for Gardens

Calculator

Target flow rate

Choose steady flow you want at the outlet.

Pipe length (total)

m

Include all straight runs along the siphon.

Static head available

m

Source surface height minus outlet height.

Crest rise above source

m

Highest point above the source water level.

Water temperature

°C

Affects viscosity and vapor pressure.

Site altitude

m

Higher altitude reduces max lift.

Pipe material

Rougher pipes need larger diameters.

Number of 90° bends

Count elbows, tight kinks, and sharp turns.

Extra minor loss K

Add fittings not listed, like tees or reducers.

Entrance type

Inlets can add noticeable losses.

Outlet type

Free jets carry an exit loss.

Valve included?

Generic garden valve loss.

Filter included?

Useful for ponds and barrels.

Volume to drain (optional)

L

Used to estimate drain time.

Reset

Example data table

Use these values to test the calculator quickly.

Use case	Flow	Length	Static head	Crest rise	Bends	Material	Typical output
Rain barrel to bed	15 L/min	6 m	0.8 m	0.3 m	2	Smooth plastic	~19–25 mm inner diameter
Pond water change	40 L/min	12 m	1.5 m	0.7 m	4	Rubber hose	~32–38 mm inner diameter
Tank to drip header	25 L/min	8 m	1.2 m	0.6 m	3	Smooth plastic	~25–32 mm inner diameter

Formula used

The calculator sizes the pipe so total head losses fit within usable head.

Velocity: v = Q / A, where A = πD²/4.
Reynolds number: Re = ρvD / μ.
Friction factor: Swamee–Jain approximation for turbulent flow.
Darcy–Weisbach losses: h_f = f(L/D)·(v²/2g).
Minor losses: h_m = K·(v²/2g).
Total losses: h_t = h_f + h_m ≤ (static head − safety margin).

A lift check estimates safe crest rise using atmospheric head and water vapor pressure at your temperature and altitude.

How to use this calculator

Measure the height difference from source surface to outlet.
Measure total hose length including all runs.
Choose a realistic target flow rate for your task.
Count bends and note any valve or filter used.
Enter crest rise if the siphon goes over a rim.
Press Submit and review diameter and warnings.
Pick the nearest larger standard size for safety.

Article

Planning siphon performance

A garden siphon works because elevation difference converts to flow energy. This calculator links your target flow to pipe diameter, so the available head is not wasted by friction. When you size correctly, transfer stays steady, starts faster, and avoids noisy surging that can stress plants and fittings. It also helps match flow to gentle watering, not soil erosion.

Inputs that control losses

Total length, bends, valves, and strainers all add resistance. Minor losses are grouped with a K value, while straight runs use Darcy–Weisbach friction. Enter realistic fittings counts, and add extra K for quick couplers, tees, reducers, or kink-prone hose sections commonly used in beds and barrels. If you use long corrugated hose, expect higher losses than smooth tubing.

Why diameter matters

Diameter drives velocity, and velocity drives losses by v². Doubling diameter increases area four times, lowering velocity sharply for the same flow. Lower velocity reduces friction, reduces entrance and exit losses, and gives more margin when the outlet level changes. The standard-size suggestion helps you buy practical tubing. For clean starts, keep diameter consistent instead of using step-down adapters.

Lift limits and reliability

Siphons also have a height limit at the crest. As the high point rises, pressure drops and bubbles can form. Temperature and altitude reduce safe lift by raising vapor pressure and lowering atmospheric pressure. Use the lift check to keep the crest below the recommended limit and prevent breaking prime. A screened inlet prevents debris, but it should not be undersized. Check connections for leaks; even small air ingress stops flow.

Using results for garden decisions

After you submit, compare total loss to usable head. If losses are close to the limit, choose the next larger size or shorten the run. If velocity is very high, expect vibration and more air entrainment. If drain time matters, enter volume to estimate how long a water change or barrel emptying will take. Document your settings to repeat the same setup each season.

FAQs

1) What does “static head” mean for a siphon?

Static head is the vertical difference between the source water surface and the outlet level. More head generally increases flow, unless friction and fittings consume it.

2) Why does the calculator subtract a safety margin from head?

Real siphons face air pockets, small leaks, and changing levels. A safety margin keeps the design conservative so the target flow is still achievable during typical garden use.

3) How many bends should I count in flexible hose?

Count any turn that behaves like an elbow, including tight curves, kinks, and sharp loops over a rim. For gentle sweeping bends, you can count two bends as one.

4) What velocity range is practical for garden siphons?

About 0.5 to 2.0 m/s is usually comfortable. Lower speeds may prime slowly, while higher speeds raise losses, noise, and the chance of pulling air at the inlet.

5) Why can a siphon stop when the crest is too high?

As water rises to the crest, pressure drops. If it approaches vapor pressure, bubbles form and the siphon loses prime. Warm water and high altitude reduce the safe lift.

6) Should I choose the nearest or the next larger standard size?

If your run is long, fittings are many, or losses are close to usable head, choose the next larger size. It lowers velocity, improves reliability, and reduces priming effort.

Practical tips for gardeners

Prime the siphon fully to remove trapped air.
Keep the crest as low as possible for reliability.
Use smooth bends and avoid tight kinks in hoses.
Install a screen to protect fish and prevent clogs.
If flow pulses, air is entering somewhere upstream.