NP bioplastics
Negotiable /Kilogram
Min.Order:25 Kilograms
Bio Pellets Filter Media
NP Biopellets for Aquariums
For Nitrate and Phosphate Reduction
NP Biopellets are pelletized biodegradable polymers that make waste from the water, mainly
nitrate and phosphate, are converted into bacteria. This keeps the aquarium water achieve
natural marine water level.
The new formula NP Reducing Biopellets are composed of 100% pure biologically degradable
polymers that can be placed in a fluidized filter or mini filter canister. The pellets will allow
aerobic growth of bacteria which consequently will consume nitrate and phosphate simultaneously.
The bacteria will use up the carbon from the Biopellets, whilst nitrogen and phosphorus are
taken from the water as nitrate and (ortho) phosphate. This conversion of organic Biopellets
(together with inorganic nitrogen and phosphorus) into microbial biomass is called immobilization.
In addition, anaerobic layers will develop, resulting in additional denitrification.
To avoid the sensitive marine animals being unadapted for sharply reducing of NO3 and PO4,
we recommend adding NP Biopellets in a successive way. For example: Biopellets should
added in 200L aquarium water as follows:
aqua water | first week | second week | third week | later weeks |
200L | Add 50ml | Add 50ml | Add 50ml | Add 50ml per week |
Caution:
-Maintain sufficient water flow through the NP Biopellets, to prevent production of hydrogen
sulfide gas.
-The use of NP Biopellets in marine aquariums must be accompanied by the use of a protein
skimmer to achieve the export of bacteria and assimilated nutrients. It is not necessary for the
outlet of the filter containing pellets to be positioned near the intake of a protein skimmer,
but it is necessary to have a protein skimmer running on the system.
-The use of ozone and UV will negatively affect bacterial recruitment of the Biopellets and increase
the maturation time of the filter. So we won’t recommends use the NP Biopellets with ozone
and UV at the same time when cultivating bacteria.