What is phosban reactor

Visit our store to check our range of Live stock. Browse for new arrivals on Fish food. Miscellaneous 3 Misc. Description: Description:. It can be mounted hanging on the back of the aquarium or below the aquarium. Use with any pump having a capacity between and lph, but regulate the flow rate to the recommended 75 to litres per hour with the included ball valve.

You may also like. It can be mounted hanging on the back of the aquarium or below the aquarium. Includes ball valve for regulating flow, and flexible connection fittings that rotate degrees to allow a perfect custom fit to your installation. The threaded lid design makes servicing quick and easy. One reactor for aquariums up to gallons.

Notification will be sent to your e-mail address every time the item price is decreased. Notify me when this item is back in stock. Ask a question about this product. We recommend the Maxi-jet to power this unit. Main Features. Reactor is rated for up to gallons. Recommended flow rate: gph for grams PhosBan, gph for grams.

A phosphate reactor works ideally for this purpose. This article will give you an overview of the components of a phosphate reactor. The first component of a phosphate reactor is a small reverse flow media reactor chamber. The reactor is filled with what is called granular ferric oxide GFO media.

Water is delivered into the reactor chamber through the top, and travels down a tube in the center of the reactor. The water is funneled into a small compartment under the media and flows up through a dispersion plate, up through the media, and out the top of the reactor through a second tube. This is a critical feature of the media reactor. Especially if you consider the alternative, pushing water through the media.

Because doing so would cause the media to behave like a mechanical filter and would soon be clogged with detritus.

It is important to note that the chemical process of phosphate removal outlined briefly below only happens on the surface of the media.

If the media is clogged, it becomes significantly less effective. By operating the media in a fluidized manner you improve the longevity of the GFO media. Excess orthophosphate levels will lead to algae growth and can also reduce coral growth and negatively impact coral coloration.

Typical inorganic phosphate levels in natural seawater are about 0. GFO removes phosphate because the inorganic orthophosphate molecule binds with the iron molecules on the surface of the GFO media. In the process, two hydroxide naturally high pH molecules are released creating a tiny zone of increased pH.

This is important, because this tiny high pH zone is thought to encourage calcium carbonate precipitation on the surface of the GFO media.

This prevents the formation of bonds between the phosphate and the GFO decreasing its overall lifespan. You can test if your media is covered in calcium carbonate by pouring small amount of vinegar over a small test sample of your media.