BioClean replaces your detergents and softeners of your washing machine, allows you to do detergent-free laundry and it lasts for 3 years based on a 4kg wash daily. Economical and ecological, the BioClean laundry ball is composed uniquely of natural ceramics contained in a plastic non-toxic sphere. It was created scientifically to clean clothes without using any detergent.
Why Anabess BioClean laundry ball?
Cost‐Effectiveness by saving expenses for detergents
Statistics show synthetic detergents a person uses every year amount to 10kg. This is equivalent to 40kg a year for a family of four, and 120 kg of synthetic detergents every three years, meaning a considerable amount of money is used for buying them. BioClean can be used for at least 3 years, therefore families can save as much as may have been spent for buying them.
Excellent washing Power
Specially manufactured 4 types of ceramic balls turn the water in the washing tub into alkaline and split up water molecules, causing the water to do interfacial activation. This weakens surface tension to allow water to penetrate deep inside fabrics and loosens adhesiveness in fabrics or between dirt, helping protein and grease easily come off fabrics.
Protecting skins and clothes
When we use synthetic detergents to do washing, they partially remain in the clothes. Those particles cause skin disorders like atopy and shorten the durability of fabrics. BioClean completely removes remaining detergents off clothes and protects against skin diseases. The resulting low acidity renders fabric texture tender, delays oxidation and degeneration and protects clothes to allow them to be used for a longer time.
Environmental impacts by synthetic detergents are increasingly becoming severer. They hardly dissolve and block light penetration into water to deter photosynthesis of plants and supply of oxygen, significantly lowering the self‐purification of waters. The synthetic detergents used not only cause environmental pollution but also return to us in the form of foods, injuring the health of our family members. BioClean does not need such detergents and its outer cases are also made of eco‐friendly materials, contributing to environmental protection.
As the washing tub of a washing machine is often exposed to water, it provides good conditions in which mold or bacteria can propagate. Still remaining in the clothes even after washing, they can cause secondary pollutions. BioClean’s ceramic balls are excellent in decomposing the propagation of bacteria in clothes and the washing tub.
Washing clothes by using synthetic detergents needs plenty of water and electric power to clean off bubbles. BioClean helps significantly lower the amount of water used for washing and the time for rinsing, considerably contributing to saving water and energy.
1. Frictions of outer bumps and water pressure
Washing is done by the frictional force made between the protruding bumps on BioClean and clothes, and it is further enhanced by the water pressure spurting through the bumps.
2. Interfacial activation by far infrared ceramic balls
Water generally comprises 12 – 15 water clusters, while far infra‐red ceramics decrease water clusters to 5 – 6. The water with small clusters performs interfacial activation, strengthening surface tension. This makes water easily penetrate deep inside clothes or fabrics to remove dirt.
3. Activation of water by alkaline ceramic balls
Synthetic detergents remove dirt off clothes by alkalizing water to about pH 10 and the alkaline ceramics of BioClean also alkalize water in the washing tub to about the level done by synthetic detergents. Alkalized water easily cleanses protein and greases, two major pollutants of clothes.
4. Anti-bacterial effects by anti-bacterial ceramics & TM ceramics
Anti‐bacterial ceramics generate electrons(e‐) and holes(h+), and holes particularly form highly oxidizing hydroxyl radical (∙OH) to have anti‐bacterial properties. To TM ceramics is added TiO2, which, upon exposure to infrared rays of 380mm, causes photo‐catalysis, and generates the two kinds of active oxygen of superoxide radical (O2‐) and hydroxyl((∙OH).