Jun 09, 2016

Cambrian Innovation Announces Pilot With U.S. Army

Test is evaluating company's system for application at off-grid locations

cambrian innovation, u.s. army

Cambrian Innovation, provider of biotechnology products for water and energy management, announced a partnership with the U.S. Army to demonstrate BioVolt, a self-powered wastewater treatment system. Leveraging newly discovered, energy-generating biological processes, BioVolt treats wastewater with zero electrical input from the grid for aeration. The demonstrator test at the Carderock Division of the Naval Surface Warfare Center in Maryland is evaluating the system for application at forward operating bases (FOBs) and other off-grid locations.

“The largest shipments of supplies we send to the tactical edge in Afghanistan and Iraq are water and fuel,” said Lateefah Brooks, the contracting officer’s representative from the U.S. Army. “Advanced wastewater treatment solutions like BioVolt that not only clean water, but also produce energy to power the system, ensure resiliency in some of the harshest environments in the world.”

BioVolt uses electrically active microbes as catalysts in a fuel cell architecture to treat wastewater and generate electricity. The system is containerized, mobile and can be easily scaled for expanded capacity with additional units.

“Managing water and wastewater has traditionally been a very energy- and labor-intensive process. By producing electricity from wastewater and employing energy-efficient operations, BioVolt has the potential to decouple water and energy infrastructure, providing important strategic benefits for the Army,” said Matthew Silver, founder and CEO of Cambrian Innovation. “We also foresee applications far beyond the military, including disaster relief and off-grid water treatment.”

Cambrian Innovation’s flagship product, the EcoVolt Reactor, converts industrial wastewater into clean water and renewable methane gas. As compared to the EcoVolt Reactor, BioVolt directly extracts electricity from wastewater, rather than converting organic contaminants into methane. The process holds key advantages for off-grid or grid-impaired applications.