WASTEWATER MEASUREMENT RESOURCES

• How Hyper-Detailed Modeling Is Strengthening Worker Safety And Water Infrastructure Resilience

  Water utilities are under mounting pressure to modernize aging infrastructure while keeping budgets under control, forcing owners and contractors to deliver reliable projects with leaner teams, tighter windows, and greater scrutiny. Hyper-detailed modeling is emerging as a critical solution for these challenges.
• Regulators Love Artificial Intelligence

  Explore how creating an open dialogue with regulators during the conceptual design of a project significantly reduces the risk of incurring a major project delay during later project phases.

• The Vital Role Of Measurement In Effective Wastewater Recovery

  How digitalization technologies, including data analytics and asset management, can offer smart, sustainable solutions to our planet's wastewater treatment challenges — and help combat the problems of global water scarcity.
• Detecting COVID-19 Early Via Wastewater Surveillance

  Wastewater-based epidemiology (WBE) is the analysis of wastewater to identify the presence of biologicals or chemicals for the purpose of monitoring public health. It can provide a snapshot of entire communities from one sample. Detecting viral diseases by way of wastewater monitoring is nothing new, it’s been known for decades that viral particles can be detected in human feces. WBE has previously been used to detect the presence of pharmaceutical or industrial waste, drugs, viruses, and potential emergence of antibiotic-resistant bacteria. In Israel, a wastewater surveillance program for monitoring polio outbreaks has been successfully running since 1989.

• Bringing Efficiency And Confidence To Wastewater Analysis

  Maintaining the quality of wastewater (WW) effluent is more important than ever before, as municipalities deal with aging treatment systems, budget restrictions, and evolving compliance standards. As a result, water professionals need accurate and efficient tools to check water safety in the lab and in the field to determine levels of chemicals such as sodium, chloride, calcium, fluoride and ammonia, as well as pH, conductivity, and dissolved oxygen. By Dr. George Jarvis, Thermo Fisher Scientific, Water Analysis Instruments

• From Insight To Output: How Digital Solutions Can Advance Industrial Water Management

  Smart water management is not just a moral responsibility; it’s also a business imperative. Without insights and analytics that empower organizations to act quickly to reach optimal water performance, enterprises stand to lose billions of dollars in asset, water, energy, and operating efficiency.

• Transforming Cities And Infrastructure For A Sustainable Future

  This paper discusses how the right combination of digital tools is helping cities move from a reactive response to delivering a more sustainable future while saving costs and connecting the workforce to trusted data.

• Full-Bore, Unrestricted Mounting Flow Meter For Municipalities

  Like all wastewater treatment facilities, the City of Pendleton WWTRRF faces the daily challenge of maintaining water safety and quality for the city while improving energy consumption and meeting city, state and national regulations. 

• Ultrasonic vs. Radar In The Water Industry

  In recent years, the debate about which technology is best suited for level monitoring and open channel monitoring (OCM) applications has taken some traction. There are those who argue that ultrasonic level technology has been uncontested as the standard for level and OCM applications in the water industry. The counter-argument is that radar technology is more effective because it is more robust and accurate than ultrasonic technology. 

• Customer Success Stories In Water & Wastewater

  Welcome to the modern HMI/SCADA system—where machines, data, insights, and people are connected. See how GE Digital customers have improved operator response, adhered to regulations, and reduced costs.