Truckee Meadows Water Authority, NV Selects AquaTwin Water for ArcGIS Pro

Aquanuity, Inc., the leader in strategy-led simulation-powered water infrastructure digital twin software, today announced that Truckee Meadows Water Authority (TMWA), Reno, Nevada, has purchased multiple licenses of ArcGIS Pro-centric AquaTwin Water.

TMWA delivers high-quality drinking water to approximately 450,000 customers in extremely hilly and varied terrain within a large 171 square-mile service area. Because of the differences in elevation in the Truckee Meadows, TMWA’s has one of the most complex large municipal water systems in the western U.S. Operationally, this topography requires numerous pressure regulator stations (380), booster pump stations (118), water tanks (95) and five treatment plants to meet peak customer water demand and fire-flow requirements. In addition, TMWA relies on 86 groundwater wells throughout the system to meet peak summer water demands and provide resiliency during droughts.

“Water utilities of all sizes are quickly recognizing the unprecedented business value and benefits of the AquaTwin digital twin platform for building, operating and managing highly efficient, sustainable and resilient water infrastructure systems,” said Paul F. Boulos, Chairman and CEO of Aquanuity. “The fact that innovative utilities like TMWA chose Aquanuity as its solution partner clearly demonstrates the significant advantages and superiority of our water infrastructure digital twin technology. We’re proud and excited to partner in TMWA’s success.”

About Aquanuity

Aquanuity is an engineering technology company focused on helping the world’s water infrastructure work better. We blend science and creativity to create cutting-edge innovations that play a critical role in advancing a sustainable future. Our innovative software fundamentally changes the way water utilities and engineering firms can use technology to create and manage safe, efficient, reliable, sustainable, resilient and smarter water infrastructure and build better communities.