K24 flow meter 1/2" thread The use of a flowmeter is recommended in NTRs due to its extreme effectiveness and thus avoid a total "sterilization" of the water. Ideal for NTR10 and NTR20 Nanoreactors - Flow rate from 0 to 1200 l/h.
K24 flow meter 1/2" thread The use of a flowmeter is recommended in NTRs due to its extreme effectiveness and thus avoid a total "sterilization" of the water. Ideal for NTR10 and NTR20 Nanoreactors - Flow rate from 0 to 1200 l/h.
Marinepure PLATE 20x20x2.5cm Designed for Ammonia and Nitrite Removal under high flow. Deep pore structure will allow development of low oxygen zones, which will help with control of nitrates. Perfect for the creative hobbyist as it can be easily shaped. Use in sumps, between baffles, shape to fit in tight/custom places.
Marinepure PLATE 20x20x2.5cm Designed for Ammonia and Nitrite Removal under high flow. Deep pore structure will allow development of low oxygen zones, which will help with control of nitrates. Perfect for the creative hobbyist as it can be easily shaped. Use in sumps, between baffles, shape to fit in tight/custom places.
Marinepure BLOCK 20x20x8cm Ammonia, Nitrite & Nitrate Removal Primarily designed to provide deep anaerobic zones for de-nitrification in passive or low flow systems. Live rock substitute Use in Aquarium sumps
Marinepure BLOCK 20x20x8cm Ammonia, Nitrite & Nitrate Removal Primarily designed to provide deep anaerobic zones for de-nitrification in passive or low flow systems. Live rock substitute Use in Aquarium sumps
NANO reactor Tio2 NTR-320 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-320 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-160 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-160 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-80 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-80 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
K24 flow meter 1" thread The use of a flowmeter is recommended in NTRs due to its extreme effectiveness and thus avoid a total "sterilization" of the water. Ideal for NTR39 and NTR80 Nanoreactors - Flow rate from 600 to 7200 l/h.
K24 flow meter 1" thread The use of a flowmeter is recommended in NTRs due to its extreme effectiveness and thus avoid a total "sterilization" of the water. Ideal for NTR39 and NTR80 Nanoreactors - Flow rate from 600 to 7200 l/h.
NANO reactor Tio2 NTR-39 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-39 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-20 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-20 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-10 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...
NANO reactor Tio2 NTR-10 The principle of operation is very simple, ultraviolet light reacts with titanium oxide (TiO2) causing rapid degradation of organic matter and contaminants present in the water, in addition, the use of nanotechnology (ultra photosensitive ) makes our reactors the most economical and efficient on the market, being up to 10 times more...