Moving and treating water and wastewater are energy-intensive processes that result in considerable greenhouse gas emissions and ultimately contribute to climate change. Reducing greenhouse gas emissions is key to preventing the detrimental effects of climate change on the environment, water availability and human health. Improving energy efficiency is an essential part of keeping carbon emissions under control; spurring continuous upgrades to water and wastewater treatment processes that reduce the amount of energy, chemicals and other resources used. By investing in online and predictive analytical solutions, along with advanced intelligent treatment solutions, the global water treatment industry can achieve cost efficiency and carbon neutrality.

Rick Bacon, CEO of AMS, provides an in-depth review of the lessons learned from 2021 and outlook for AMS in 2022 and beyond. AMS has developed disruptive solutions to address several of the pressing problems facing the global industrial and municipal water treatment industry while actively supporting the drive to net-zero-carbon. Through a technology platform of advanced solutions to analyze and treat trace metal and inorganic contaminants, AMS helps enterprises to meet stringent regulatory standards aimed at protecting human health and the environment in as carbon neutral a way as possible.

AMS has been selected to the Advanced Fuel Cycle Programme (AFCP) and Game Changers cross-sector solutions challenge for the treatment of nitrogen oxides (NOx) from nuclear fuel recycling off-gases to minimize the environmental impact of recycling operations. AFCP is led in partnership with the U.K. Department for Business, Energy, and Industrial Strategy (BEIS) and National Nuclear Laboratory (NNL) who are collaborating with leading industrial, academic and research institutions to investigate the role of advanced nuclear fuels and fuel cycles for a Net Zero greenhouse gas emission future. AMS has been awarded funding to complete feasibility studies based on its unique SafeGuard™ H2O fully automated, on-demand, in-situ generator of stannous and tin dioxide. AMS will be demonstrating the power of tin to secure a clean energy future for all.

Semiconductor manufacturing is not only highly dependent on large volumes of water that must be treated to ultrapure standards, but the process also generates significant volumes of wastewater that contains heavy metals and toxic solvents. To reduce its environmental impact, the semiconductor industry is actively searching for new ways to optimize water consumption and improve the quality of wastewater effluent. AMS offers innovative online real-time, continuous trace metals monitoring solutions designed to aid the semiconductor industry in optimizing water consumption, improving the quality of wastewater effluent and reducing its environmental impact.

Rick Bacon, CEO of AMS, provides an in-depth review of lessons learned from the past year and outlook for AMS in 2021 and beyond.

To meet the goals for safe drinking water and sustainability in the most cost-effective manner, there is an urgent need for the water industry to accelerate the validation and adoption of technology innovations. The adoption of real-time, water quality analyzers at water hubs is poised to change the game of technology acceptance in the water quality sector.

Rick Bacon, CEO of AMS, shares how the company is driving innovation with real-time water quality data and intelligent water treatment systems. Rick provides an in-depth review of 2019 and an outlook for 2020.

Online instruments help water utilities control water treatment operations. CEO Rick Bacon of Aqua Metrology Systems explains how utilities rely on sensors to meet water quality compliance standards and optimize operational performance in the May/June 2019 issue of World Water.

2018 was a busy year for AMS. We raised awareness about the value of real-time, online high-density data to determine the presence of water-borne contaminants and began deployment of our own patented Intelligent Water Treatment System for chromium, mercury, lead and selenium remediation. In 2019, we anticipate wider adoption of our online contaminant analyzers in North America and Europe and plan to broaden access to safe drinking water through innovative drinking and wastewater treatment technologies.

Intelligent water treatment systems incorporate real-time sensing to ensure that their performance is optimized to avoid under- or over-treatment and that any deterioration in system performance is signaled to permit timely remedial intervention.