950 m2 per m3 Protected Surface AreaUse to replace conventional beads in bead filtersCreates an effective environment for the nitrification process to take placeIncreased protection for the bio-filmreduces back pressure on pumps
K1 Micro is specifically designed for use in bead filters, conventional pond filters and aquarium filters. K1 Micro has the same wheel shaped design as K1 Media, but it has an increased protected surface area of 950 m2 per m3.
The wheel shaped structure of K1 Micro is designed specifically to create the most effective environment for the nitrification process to take place. As K1 Micro media matures, bacteria colonises in the "quiet areas" of each piece of media helping to improve nitrification / de-nitrification. This enables a well-balanced biological equilibrium to be sustained in your pond to keep fish healthy and the water crystal clear.
The small size of K1 Micro makes it ideal to be used a replacement for beads in a bead filter. Not only will the vast 950m2 per m3 protected surface area maintain a bio-film that helps to improve nitrification, water quality and clarity, but K1 Micro can offer many more benefits:
Increased protection for the bio-filmK1 Micro retains the bio-film within its wheel shaped structure.
Improved solids handlingA static bed of K1 Micro packs tightly together with areas for solid particles and fines to be captured, helping to reduce TDS levels.
Increased flow rateK1 Micro allows enough water to flow evenly through media rather than tracking around a "clump" of beads. This means that flow rates are improved when using "like for like" pumps.
Reduced back pressureThe improved flow also reduces the back pressure or resistance inflicted on the pump. In turn this improves the pumps' efficiency and may even result in the need for a lower rated pump which will ultimately save you money!
Improved cleaningDuring a cleaning process, the bio-film remains protected within the K1 Micro.
Semi buoyant mediaK1 Micro is a semi buoyant m
Evolution Aqua K1 Micro Media 25 Litres QHNNISCRX