Webinar
Using Chlorine Dioxide for Compliance
with Drinking Water Regulations
Tailored for municipalities, consulting engineers, and state regulators seeking to understand how ClO2 can enhance drinking water safety and compliance with the Stage 2 Disinfection Byproducts Rule (DBPR) and the Long Term 2 Enhanced Surface Water Treatment Rule (LT2ESWTR).
You Will Learn
Top ClO2 Applications
Pre-oxidation, disinfection, taste and odor control, iron and manganese control, and nitrification control in distribution systems.
Methods for ClO2 Generation
How to safely and effectively produce ClO2 for your potable water facility.
Regulatory Compliance Strategies
Simplified approaches to reduce overall DBP toxicity profiles, whether regulated or not.
Meet Our Expert Panel:
Alan Burke, Ph.D.
Dr. Burke is a chemical engineer at International Dioxcide, a wholly owned subsidiary of ERCO Worldwide. He has over twenty years of experience in developing chemical processes for commercial applications. For the past ten years, Dr. Burke has focused on chlorine dioxide systems and their practical application.
Scott Glynn, Senior Chemist
Scott Glynn has a Bachelor’s in Chemistry and has been with International Dioxcide for 30 years. His background includes redox chemistry, formulation development, and pilot scale testing. For the past 20 years, he has been involved with regulatory and certification of IDI’s products, including work with the EPA, FDA, PMRA, Health Canada, and NSF.
Zack Li, Ph.D.
Dr. Zack Li is a senior process engineer with International Dioxcide, where he conducts research, development, and evaluation of chlorine dioxide generation technology and application in the water industry. Zack’s broad industrial experiences include chlorine dioxide technology application in water and wastewater treatment, water supply and wastewater engineering design, environmental biotechnology and bioremediation testing, chemical dispersants/surfactants effects and effectiveness testing, and national and state drinking water quality regulations.