The Dutch translation of this article is by DeepL Translate, it can be inaccurate, incomplete and probably with some of errors! But much better than Google Translate
Translated in Dutch by Joost Abrahams

6.5. Water Flow Rate

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Author : David Bogert

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Time To Read :
2 minutes
One of the biggest myths in the aquarium hobby is that a canister which has an actual flow rate of 600 GPH (gallons per hour) can filter roughly twice the amount of fish that a canister that has an actual flow rate of 300 GPH. In actuality the 600 GPH canister might be 10% better in filtration than the 300 GPH canister, assuming both filters have the same volume and media.

The concept that flow is important was tested. It showed doubling the flow rate added some 9% to the filter capacity. All the well meaning but ill-informed commentators on social media say it should double the capacity. This test can be found at this link:

8.3.1. Canisters in Depth

Pelvichromis kribensis
Pelvichromis kribensis

Experimentation on recirculating aquaculture systems (RAS) for farming tilapia have shown that flow rate does influence the ammonia oxidizing ability of a filter. But the relationship is not linear. On a basis of ammonia oxidizing capability per square foot of surface, doubling the flow rate through a canister filter will add 5% to 15% to the filtration capacity of the filter. The Europeans are quite successful with using much lower flow rates through their canisters than Americans use.

A typical canister filter will require very roughly 5 ft² (0.46 m²) of surface area to oxidize the ammonia of one pound (454 gram) of fish. A fluidized bed filter will only require roughly 2 ft² (0.19 m²) of surface area per pound (454 gram) of fish for ammonia oxidation. And an air operated sponge filter will require at least 10 ft² (0.92 m²) of surface area per pound (454 gram) of fish to oxidize ammonia. This is because of the flow rate through and in each filter. But it is a phenomenon called “turbulent flow”, which is more complex than just the flow rate through the filter.

Petrotilapia retrognthus Chizumulu
Petrotilapia retrognthus – Chizumulu

For a more in depth analysis of this topic click the link below:

6.5.1. Flow Function

Another common myth is that the substrate in an aquarium does a lot of biofiltration. Beneficial bacteria require two things to live and oxidize ammonia well. The first is a surface to grow on and the second is decent water flow over that surface. While the substrate provides a lot of surface area it has little flow. So it doesn’t do a lot of filtration.

The idea that substrate is important as a place for beneficial bacteria to grow was tested. The tests and the scientific literature say the substrate in even a poorly filtered aquarium only provides 10% to 20% of the filtration. The tests are at this site:

6.5.2. Substrate as a Filter