DRINKING WATER MEASUREMENT RESOURCES

  • Safe drinking water has long been water utilities' core purpose. Today, however, that job is infinitely more complex. Climate change, infrastructure aging, industrial pollution, emerging contaminants, and more regulatory pressures require utilities to reassess every point at which they measure water quality in their treatment and distribution systems.

  • For AI to deliver real operational value, it needs a constant flow of reliable operational data. AI systems are relentlessly data-hungry, and the more data, the better. Yet, accessing this data remains a major challenge in the utilities sector, with remote reservoirs, wastewater treatment works, and sprawling infrastructure often located a long way from traditional cellular networks.
  • Expectations for transparency and reliability in water-metering infrastructure have risen. As a result, a fundamental question is emerging across the industry: if modern ultrasonic meters are already smart, why are we still adding intelligence outside the meter?
  • A DWTP client in Alaska detected elevated PFAS contamination levels in two groundwater wells supplying drinking water to 85 service connections. PFAS concentrations are provided in Table 1, where combined concentration of EPA PFAS6 was detected at 490 to 810 ppt.

  • Non-intrusive ultrasonic technology provides precise, bi-directional flow measurement without process downtime. By clamping onto the pipe exterior, these systems eliminate maintenance and pressure loss, offering a reliable, data-rich solution for complex water and wastewater monitoring environments.

  • Given the maturation of sensor technology, the scientific and operational hurdles to portable lead analysis are somewhat surprising — but surmountable.
  • Accurate low-level turbidity monitoring requires a deep understanding of detection limits and the variables affecting measurement sensitivity. Learn how refined laboratory techniques and standardized spiking protocols ensure precision in demanding water treatment applications.

  • As water systems grow more complex and climate patterns shift, Legionella is emerging as one of the most persistent and underestimated risks in the built environment. The threat to public health from Legionnaires' disease will likely further escalate unless decisive action is taken.
  • Developed from U.S. Office of Naval Research requirements, this multiparameter chlorine sensor offers extended maintenance-free operation, flow-independence, and automatic compensation for reliable, in-pipe monitoring.

DRINKING WATER MEASUREMENT SOLUTIONS

  • Spectroquant® Test Kits – The Photometric “Peace Of Mind” Package

    Ready-to-Use Test Kits, Standards & Photometers for Certified Precision: your requirement for quality and ease-of-use, met with automatically recognized test kits, appropriate reference materials and photometers.

  • WATERFLUX 3100 Electromagnetic Flowmeter

    The WATERFLUX 3100 is an electromagnetic flowmeter (EMF) for all standard applications with raw, potable or abstraction water. It is the ideal solution for all general flow applications where reliable flow measurement with sufficient yet not extremely high accuracy is required. With its rectangular and reduced cross-section the EMF enables a stable measurement even at low flow rates. This way, the WATERFLUX 3100 offers a much larger turndown ratio (1000:1) than mechanical flowmeters (e.g. turbine meters) in drinking water distribution networks.

  • Thermo Scientific Orion Chlorine XP Multiple Parameter Water Quality Analyzer

    The Thermo Scientific™ Orion™ Chlorine XP™ analyzer measures free, total, and combined chlorine, providing accurate, objective, and fast readings of chlorine in water. It minimizes the need for periodic calibrations and is compatible with all disinfectant processes. The Chlorine XP analyzer utilizes a DPD-based measurement technology that can be configured to use the least amount of reagents while maintaining utmost accuracy.

  • RentEZ 4" To 12" EZ Valve®

    EZ Valve Kit 'rent-free' and indefinite. Lease remains in effect as long as the customer remains in compliance with its terms. Six valves to be purchased up front. After 60 days a further six valves must be purchased every six weeks.

  • OPTIMASS 6400 Coriolis Mass Flowmeter

    The OPTIMASS 6400 is the standard high performance Coriolis mass flowmeter for the process industry. The twin bent tube meter offers superior performance and high accuracy in virtually any application: From process control in (petro)chemical applications to concentration measurements in the food and beverage industry to custody transfer filling and transport measurements in the oil and gas industry. Its high-end options also make the OPTIMASS 6400 the optimum device for cryogenic media like Liquefied Natural Gas (LNG) with temperatures down to -200°C / -328°F as well as applications involving high operating temperatures (up to 400°C / 752°F) or pressures (up to 200 barg / 2900 psig).

DRINKING WATER MEASUREMENT VIDEOS

Take a quick tour of the Blue-White factory in Huntington Beach, California, where skilled employees are busy building chemical dosing pumps, complete metering systems and flow measurement equipment.