WASTEWATER MEASUREMENT RESOURCES
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In the world of industrial automation, the talk is centered around “industrial internet of things” (IIoT). With buzzwords like “Industry 4.0”, “IoT”, “digital twin”, “cloud computing”, “artificial intelligence”, “machine learning”, and “deep learning”, it is difficult for automation engineers and business managers to determine how to implement these new technologies.
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Imagine H2O recently announced the 10 finalists from more than 90 worldwide entrants to its Water Data Challenge. Here’s a brief overview of each company and what they offer.
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Building off the industry accepted tech and distribution network-focused original SWAN 5-Layer Smart Water Model (learn more here), this new circular framework is a result of the evolution of smart water and strategic input provided by diverse, global SWAN Members, and thought leaders. Thank you to all those that contributed their insights to this framework, from across social media to the open innovation sessions held for our global membership!
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As real-time monitoring continues to infiltrate the water industry, it’s time to apply such instrumentation to detect the other type of infiltration — along with inflow, snow and ice melt, etc.
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Pumps are power-hungry and thus expensive to run, but San Jose Water shows how data-driven technologies and strategies can bring the cost down for utilities.
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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.
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In the early 1990s, the Borough of Ridgway purchased several separate systems to control their water treatment and five bay filtration processes. Through the years, technology obsolescence led to difficulties in obtaining support and spare parts for all the systems. At one point, the existing systems completely failed, leaving Ridgway employees to manually operate the plant for several months. A new, more efficient system was desperately needed.
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The Ecograph T RSG 30 data logger is used to monitor Turbidity, DO and pH and provide critical information to meet EPA standards. By Endress+Hauser, Inc.
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The City of Norman’s Utility Authority in Oklahoma (NUA) engaged Optimatics and Carollo Engineers, Inc. to identify the optimal locations for well water production to serve its growing population as well as address draught conditions brought on by climate change. The City places strong emphasis on providing innovative leadership and superior services for its citizens.
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Global demand for power and water is accelerating — and the Middle East is no exception. A burgeoning population combined with multiple industrial diversification programs is fueling a boom in power and water projects. During the first three quarters of 2017, about US$30 billion of major power contracts and US$20 billion of water projects were awarded across the region. In 2018, the figure is looking more like $60 billion with the two sectors combined.