Axine Water Technologies

Axine Water Technologies

September 11, 2012 10:00 ET

Axine Water Technologies Closes Multi-Million Dollar Equity Financing Led by Top Cleantech VC

Funds from Chrysalix Energy Venture Capital and BDC Venture Capital Will Help Company Advance Commercialization of Its Low-Cost, Breakthrough Wastewater Technology

VANCOUVER, BRITISH COLUMBIA--(Marketwire - Sept. 11, 2012) - Axine Water Technologies, developers of a low-cost, breakthrough solution for treating toxic organic pollutants in wastewater, today announced the closing of a multi-million dollar equity financing round led by Chrysalix Energy Venture Capital, the world's most active cleantech venture capital firm, and joined by the Business Development Bank of Canada's venture capital arm. Axine will use the funds to advance commercialization of its technology and solutions as it looks to capitalize on a multi-billion industrial and municipal market opportunity.

"Toxic, persistent organics in wastewater are an increasingly expensive problem in industrial and municipal wastewater treatment that cannot be cost-effectively treated by conventional biological and chemical processes. They also cause production bottlenecks and limit water reuse potential in many industries," said Wal van Lierop, Chrysalix President & CEO and Axine Chairman. "Axine offers a fundamentally new approach to address these difficult-to-treat pollutants that uses less energy, is ultra low-cost, and is unlike anything we've seen before."

"Axine has the potential to establish a new standard in wastewater treatment that enables customers to reduce costs and improve the performance of their treatment systems," said Tony Van Bommel, Managing Partner of the Energy/Cleantech Venture Capital Fund with the Business Development Bank of Canada (BDC). "We are very pleased to be part of this financing and back such a disruptive technology, huge market opportunity, and an experienced and capable management team."

"The backing of a VC the caliber of Chrysalix, along with the support from BDC Venture Capital is a strong endorsement of the technology, the team and the market opportunity," said Jonathan Rhone, Axine President & CEO. "As our lead investor in this round, the Chrysalix team has provided tremendous technical, market and strategic support enabling us to hit the ground running and accelerate commercialization. We look forward to a productive, long-term partnership with both Chrysalix and BDC to build Axine into a dominant player in the wastewater industry."

Axine's proprietary electrolytic oxidation technology is designed to treat high concentrations of toxic organics, as well as biodegradable organics, ammonia, and pathogens in a single step without using chemicals and without producing sludge. By taking a novel approach to electrochemical oxidation, the Company achieves a step change improvement in performance, lower cost, and lower energy consumption vs. incumbent organic treatment equipment.

Axine is initially focused on developing applications in oil and gas, pharmaceuticals, chemicals, food and beverage, and other heavy industries where its technology can be integrated into existing wastewater treatment plants to improve performance and reduce cost. The Company's longer-term vision is to incorporate the technology into the design of new wastewater plants to displace conventional biological, chemical oxidation, and other traditional wastewater equipment with a single process step.

About Axine Water Technologies

Axine has developed a low-cost, breakthrough solution for treating toxic organic pollutants in wastewater. Our proprietary electrolytic oxidation technology treats high concentrations of dissolved, toxic, non-biodegradable organics, biodegradable organics, ammonia, pathogens, and some inorganics in a single step without requiring chemicals and without producing sludge. This technology enables customers in a range of industrial and municipal markets to significantly reduce the cost and improve the performance of their wastewater treatment. For more information, please visit

Contact Information