DRINKING WATER CASE STUDIES AND WHITE PAPERS

• How pH Standards Impact The Accuracy Of Water Quality Measurements

  When it comes to pH measurement in water and wastewater treatment, there are two focal points for the word ‘standard’ — one is a compliance-related state or federal water quality specification; the other is a specific fluid used as a calibration reference point to ensure pH instrumentation accuracy. Here is why both are important and how they affect the best pH measurement outcomes in both areas.

• PermaSeal Insertion Valve Provides Operational Efficiency In Arizona

  To limit customer shutdowns and reduce non-revenue water loss, the City of Phoenix agreed to be a part of the first live installation of the PermaSeal Insertion Valve and test the capabilities and benefits obtained from utilizing the resilient wedge gate valve design.

• United Utilities Trunk Main Trial

  United Utilities supplies water to 3 million homes and 200,000 businesses in North West England. Within the Winscales and Scilly Banks service reservoir zones where the trial was to take place, local United Utilities NCI / NIA had previously split the main and quantified losses of 4 liters/sec and 2 liters/sec in the respective halves. Leak detection on trunk mains using correlation techniques has always had potentially limited success for reasons of poor sound propagation and scarcity of accessible fittings. The business challenge was to exceed these limitations, improve efficiency and reduce leakage.

• It's Not Too Late To Add These Five Water-Related Books To Your Summer Reading List

  Summer reading list a bit dry? Drink up these books on the world’s greatest resources — water.

• Empowering Smarter Decisions With Pipeline Data

  Through case studies and technical insights, this paper demonstrates how utilities can use inspection tools, valve assessments, structural modeling, and predictive analytics to make informed decisions.

• Top Cybersecurity Trends Driving Digital Transformation For Water Utilities

  Cybersecurity continues to grow as a critical initiative for water utilities, with certain trends helping to drive and even accelerate digital transformation.

• Filter Membrane Predictive Maintenance

  At manufacturing operations using ultrafiltration systems, the ultrafiltration membranes are used for numerous batches without replacement, using Clean-In-Place (CIP) operations in between batches to maintain filter performance. However, ineffective CIP cycles or long-term fouling or degradation of the filter membrane can result in increased cycle times to move the desired amount of product through the filter, lost yield as the product is unable to permeate the filter, or poor product quality as membrane failure may occur.

• Treating Trace Contaminants In Drinking Water - Aurora, Colorado

  To protect residents from environmental contaminants, the City of Aurora set stringent water treatment goals, and adopted an advanced treatment process at the Aurora Reservoir Water Purification Facility.

• Finding A More Affordable Migration Path To Net Zero Leakage

  Whether decision-makers consider it ultimately attainable or not, there is something positive to be said about striving toward ‘net zero leakage’ in water distribution systems saddled with high non-revenue-water (NRW) losses. The key is taking affordable steps — like those described below — toward identifying and mitigating the most egregious water loss locations in a distribution system, based on readily accessible data.

• HeadCell Eliminates Chandler, AZ's Punishing Grit Problem

  Rapid population growth created the need for a plant initially designed for 5 MGD to expand four times over two decades to treat 27 MGD today. With no grit removal the plant struggled with grit since start-up, spending hundreds of thousands of dollars on contractors to remove accumulated grit every 2-3 years. The plant wanted to eliminate their grit problems once and for all. Tired of wasting money, time, and effort on this futile but necessary task, the plant hired Wilson Engineers to evaluate various grit removal technologies to determine which type of system would be capable of eliminating their grit problem.