Advanced Oxidation
HPGen for chemical-input free advanced oxidation
Electrifying Advanced Oxidation Processes
How UV with electrochemical H2O2 generation leads to autonomous, safe and sustainable removal of micropollutants. Case study
The Challenge
Safety
Advanced Oxidation solutions typically require transport, handling, storage and management of toxic chemicals on site.
By-products
Chlorine-based advanced oxidation produces by-products which may be harmful to health.
Micropollutants
Organic and pharmaceutical micropollutants are a growing concern.
The HPGen Solution
Safe
HPGen produces safe, high-purity, low-concentration hydrogen peroxide.
Chemical input free
Output hydrogen peroxide is water-soluble. Output and in-line concentration are readily measurable and controllable.
No by-products
The hydrogen peroxide produced by HPGen breaks down to pure water and oxygen, leaving no by-products behind.
Autonomous
HPGen works automatically and with no need for user intervention.
Leaves no unwanted trace
HPGen uses no stabilizers, produces over 99.99% pure hydrogen peroxide solution, and breaks down to pure water and oxygen.
Chemical-input free
Only water, electricity and air are required to operate. No need to store and handle dangerous chemicals.
Safe, powerful, chemical-input free oxidation agent
Water safety is increasingly threatened by trace organic contaminants originating from pharmaceutical, cosmetics, oil and gas, and chemical industries. These Trace Organic Compounds (TrOC) are becoming the subject of rising public concern and tightening regulations. The activation of hydrogen peroxide by UV or ozone creates highly potent hydroxyl radicals which break down these resilient organic compounds. This process is termed Advanced Oxidation Process (AOP). HPGen enables for the first time fully-autonomous, safe, chemical-input free AOP, by producing UltraPure hydrogen peroxide directly at the point of use. HPGen for AOP reduces chemical consumable costs, improves occupational safety, and reduces chemical storage, handling, and permitting costs, as well as dependence on 3rd party chemical supply chains.
