DENVER, Colo. – May 6, 2013 – Novinda, a leader in non-carbon mercury removal solutions, today announced an enhanced version of its reagent for mercury emissions capture, Amended Silicates® HgX. 

Amended Silicates® HgX delivers higher performance and improved economics for removing mercury from coal-fired power plant flue gas emissions. 

In data from sustained long-term, full-scale power plant testing, Amended Silicates® HgX delivered up to 60 percent greater performance to meet the same EPA Mercury & Air Toxics Standards (MATS) than Novinda’s first generation Amended Silicates® product – AS-022. 

The Amended Silicates® platform, known for preserving the beneficial use of fly ash, having exceptional SO3 tolerance, being less corrosive to the balance of plant, and operating in a broad range of operating temperatures, delivers a robust performance across a variety of coal-fired power generation environments. The new Amended Silicates® HgX product’s economics are extraordinary, since it is commercially available at the same cost as Novinda’s first generation product. 

“Novinda is committed to developing and commercializing innovative technologies that address environmental compliance and minimize the economic impact to the power company and its customers,” said Ed Williams, CEO of Novinda. 

Amended Silicates® HgX performance results are based on side by side testing at multiple full-scale coal-fired power plants in 2012 and 2013. The product is now commercially available for testing and long-term supply contracts. 

About Novinda
Novinda is unique for its family of non-carbon mercury capture reagents, Amended Silicates®, which remove mercury with chemical reactions rather than through adsorption technologies. Amended Silicates® provides economical, consistent, and robust performance across a variety of power-plant configurations and operating conditions while preserving fly ash value. Amended Silicates® was named Product of the Year in 2012 by Environmental Protection Magazine, in the Air Quality and Climate category.