Solar Industries is a technological leader in the fluid treatment industry.
Solar-AQUA Plus is high-purity alloy of noble and semi-noble metals formulations used in pretreatment, primary treatment, and wastewater applications. Solar AQUA Plus supplement or replace existing technologies to dramatically extend system life, reduce heavy metals, microorganisms, scale, lower total cost, and decrease maintenance.
Patented Solar-AQUA Plus is 100 percent recyclable and contains no chemical additives. Hospitals, restaurants, municipal water treatment facilities, and homes rely on Solar-AQUA plus to safely reduce or remove chlorine, iron, hydrogen sulfide, heavy metals, and bacteria from their water.
What are Solar-AQUA Plus and how do they work?
Solar-AQUA Plus are high-purity, noble and semi-noble metals based alloys that treat water through a process based upon the principle of redox (Oxidation- Reduction).
We can explain redox like this: Solar Industries unique combination of noble and semi-noble metals creates an electrochemical reaction. During this reaction, electrons are transferred between molecules, and new elements are created. Some harmful contaminants are changed into harmless components. Free chlorine, for instance, is changed into benign, water-soluble chloride, which is then carried harmlessly through the water supply. Similarly, some heavy metals such as copper, lead, mercury and others, react to plate out onto the medium's surface, thus being effectively removed from the water supply.
The marketplace is filled with good water filtration/purification systems and technologies (We should know-many of those manufacturers are some of our best customers.)
In a word, "Yes." All Solar-AQUA Plus are guaranteed for product purity. Patented Solar-AQUA Plus are 100% recyclable and contain no chemical additives. Our Medium is classified as a "pesticidal device" as per the US Environmental Protection Agency so no pesticidal registration is required, also as per the EPA and Food and Drug Administration standards for maximum limits of zinc and copper in potable water.