Aquarium Overflow GPH Calculator

Aquarium Overflow GPH Calculator

Size overflow flow from weir length, water head, drain size, drain count, desired turnover, safety factor, fittings, and noise target.

📏Tank volume and turnover target

Use display-to-sump turnover, not total in-tank circulation.

🌊Weir, drain, and noise limits

Use only the wetted crest length that water actually spills across.

More drop helps siphons, but it does not make an undersized emergency drain safe.

Use 100 when a separate emergency drain should be able to pass the full return flow by itself.

Recommended flow
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Safe overflow target
Safe drain capacity
--
After restriction and safety
System turnover
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Based on water volume
Weir loading
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Noise target check

Overflow Sizing Breakdown

Overflow style comparison

0.78x
Toothed weir
Teeth reduce open crest area but block larger debris.
0.86x
Slotted weir
Slots pass more water than fine teeth at the same head.
1.00x
Smooth coast
Long open crest gives the quietest surface skim.
0.92x
External box
Good performance when the inner skim slot is long enough.

📊Drain capacity reference

Drain sizeQuiet open channelTypical open channelTuned siphon
3/4 in or 20 mm90 gph150 gph300 gph
1 in or 25 mm180 gph300 gph600 gph
1 1/4 in or 32 mm300 gph500 gph950 gph
1 1/2 in or 40 mm420 gph700 gph1300 gph
2 in or 50 mm720 gph1200 gph2200 gph
2 1/2 in or 63 mm1050 gph1750 gph3200 gph
Noise targetWeir loadingTypical soundBest use
Silent roomUp to 300 gph/ftThin sheetBedroom tanks
Quiet living roomUp to 450 gph/ftSoft trickleMost display reefs
Normal aquarium humUp to 650 gph/ftAudible waterFish rooms nearby
Utility room flowUp to 900 gph/ftNoticeableBasement sump runs
Tank sizeDimensions5x turnoverQuiet weir length
20 long30 x 12 x 12 in / 76 x 30 x 30 cm100 gph / 379 L/h4 to 8 in
40 breeder36 x 18 x 16 in / 91 x 46 x 41 cm200 gph / 757 L/h8 to 12 in
75 gallon48 x 18 x 21 in / 122 x 46 x 53 cm375 gph / 1420 L/h12 to 18 in
120 gallon48 x 24 x 24 in / 122 x 61 x 61 cm600 gph / 2271 L/h18 to 30 in
180 gallon72 x 24 x 24 in / 183 x 61 x 61 cm900 gph / 3407 L/h24 to 36 in
Overflow layoutActive drainsEmergency reserveNoise note
Single Durso1 open channelLow unless oversizedAir mix can gurgle
Herbie1 siphon plus 1 emergencyHigh if emergency is dryVery quiet when tuned
BeanAnimalSiphon, open, emergencyVery highQuiet and redundant
Dual towers2 open channelsModerateSplit flow lowers noise
Coast-to-coastVariesDepends on drainsLowest weir loading

💡Overflow sizing tips

Use real weir length: Teeth, screens, algae guards, and inner box slots reduce the effective crest. Measure the open spill edge, then keep the safety factor in the calculator.
Keep reserve separate: A quiet main siphon is not the same as emergency capacity. Size the dry emergency drain so it can pass the return pump flow if the main drain clogs.

Every hobbyist remembers his first time he heard that distinctive sound that meant trouble in his reef tank. It wasn’t the soft gurgle of the siphon or return pump hum. No, that was the sound of water crashing to the floor as some part of his overflow flow out quicker then he could unplug it. If you have ever seen a wall-mounted display and wondered if your plumbing could handle it, that scene plays out in the back of your mind.

Most system failures occurs when there is too much water flowing over the edge and not enough coming out of tank. To size this properly, you need to consider all three: head height, drain capacity, and weir length. That’s why we put one above to run those numbers for you so you don’t have to spend big bucks making an educated guess.

How to Stop Your Reef Tank From Flooding

People also get confused on one key variable: Effective weir length. Your thirty-six inch tank may have a full foot of overflow surface…but when you include all the teeth and algae guards and screens, how much of that surface actualy spills? Even if water flows across an eight-inch span, the physics still treat it like an eight-inch tank no matter how large the glass tank is on the outside. So the calculator asks for the wetted crest length (i.e. Not simply the outer size of the box), which is the correct measurement to account for this.

Why does it matter? Because a shorter effective weir means more velocity and more sound…it can turn a whisper into a roar with hardly any additional water flow.

Capacity of drains is also problematic because pipe size isn’t the entire picture. Even a one inch drain will transport much less water than an open channel than a tuned siphon such as a Durso or Herbie overflow set up. Vacuum pressure allow for pulling more volume through equal sized pipes, like a siphon. However, this creates more potential points of failure and adds complexity. As we see from the reference tables above, quiet open channels fall miles behind their tuned counterparts in terms of straight-throughput volume. So if your focus is quietness with an open drain, you’ll be looking at significantly bigger pipe sizes or multiple drains to achieve the equivalent flow of a single siphon based system.

A 1.5x safety factor is not something builders use as padding for an optimistically generous design. It’s insurance against failure of their equipment, growth of algae and detritus, or other mishaps. If your normal operating flow is x gallons per hour, then with a 1.5x safety factor, your emergency drain must be able to accommodate half again as much (50%) in case the main drain becomes blocked. If it doesn’t have that reserve, even a partial blockage will send the water rushing up towards top of the tank quickly. The reserve is there because things can, and will. Go wrong, and you want them to not result in a flood in your livig room.

Measuring water flow and determining what constitutes too much is not so cut-and-dry. Flow speed matter, as does the amount of water passing over each foot of the weir’s crest in gallons per minute. In most cases, below 400 gph/ft should be nothing more than a soft trickle (suitable for bedrooms or quieter spaces). Above that, it gets loud enough to be noticed, which relaxes some people but distracts others from their activities. You can use this tool to calculate the actual weir loading and see whether or not you need to compromise between your desired turnover rate and your limit for tolerating noise.

In the end, there’s no cheating fluid dynamics and gravity when creating a safe overflow. The math doesn’t care if you’ve created a complex custom siphon array or simply used some furnitures. Determine where the actual spill edge is, size your drains to handle the worst case scenario, and then provide lots of wiggle room for error. Get those variables correct and all you’ll hear is the peaceful hum of a healthy tank doing what it was made to do.

Aquarium Overflow GPH Calculator

Author

  • Ronan Granger

    Hi, I am Ronan Granger, the owner of AquaJocund.com! At AquaJocund, I’m thrilled to take you on a captivating and immersive journey through the wondrous realm of aquariums and aquatic life.

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