WASTEWATER MEASUREMENT RESOURCES

• 6 Steps To Improving Energy Efficiency In Water And Wastewater Operations

  Water and wastewater utilities account for nearly 4% of the world's energy consumption. With emissions targets looming and pressures building around water tariffs that frequently fall short of covering costs, there's an urgent need to reduce energy usage. This means tackling inefficient processes, such as mechanical flow control and the use of oversized equipment.
• How To Approach Cybersecurity With Confidence

  As digitalization continues to grow in the water and wastewater industry, cybersecurity becomes an increasingly important responsibility.

• Water Utilities Become Smarter In Tackling Scarcity

  Utilities around the world face ever-increasing demand for water as a result of population growth, ongoing urbanization, and rapidly growing economic activity in areas where water supply is already limited.

• Supporting Improved Wastewater Intelligence And Source Control With Real-Time Data Gathering And Event-Triggered Sampling

  Wastewater can be both a potentially harmful pollutant and a valuable resource and a vital raw material. It could be the potential key to sustainable water consumption. 

• Myths And Realities: Ammonium Based Aeration Control In Wastewater

  The introduction of simple, reliable, and affordable in situ sensors based on ion selective electrode (ISE) technology provides the opportunity for more advanced activated sludge control strategies. For example, aeration control using ammonium as a response variable in addition to or in place of dissolved oxygen (DO) using continuous monitoring and control instruments.

• Accurate Measurement Of Sewage Flow Made Possible By Clamp-On Technology

  Read about how Welsh Water sought innovative solutions, exploring clamp-on technology for accurate sewage flow measurement.

• How Digitalization Can Boost Natural Disaster Resiliency In Municipal Water And Sewerage Treatment

  Digitalization of the municipal water treatment industry is fragmented today, with instrumentation, control, and automation technologies mixed with manual operational activities. Such infrastructures can be detrimental in cases of hydro-geological events, such as severe storms and earthquakes. The good news: When natural disasters strike, digitalization can help get municipal water treatment back online quickly and effectively.

• The Role Of AI In Reducing Water Contamination Risks

  Insights gained from artificial intelligence (AI) herald a high-water mark for public protection.
• PFAS Testing Boom: U.S. Analytical Instrumentation Market Set For Rapid Expansion

  The U.S. PFAS analytical instrumentation market is poised for strong expansion, with a projected CAGR exceeding 20% over the next seven years, according to a new report. Key drivers in the market include rising concerns over increasing risks associated with PFAS exposure, the U.S. EPA's federal rule on drinking water, and investments to boost testing and treating PFAS in water.
• 6 Reasons Modern Water Treatment Relies On Smart Sensors

  Smart sensors for water treatment facilities are revolutionizing wastewater processing and clarification, leading to some amazing benefits. Modern water treatment has become a high-tech field as many facilities have begun adopting connected IoT sensors to monitor their equipment and water quality. Learn more about the benefits of these smart sensors and why they are an integral part of today's water treatment industry.