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Wastewater Monitoring Applications

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    Process Analytics - Wastewater Applications

    Control of wastewater is increasingly becoming important to avoid potential environmental and increasing legal consequences. Accurate pH, O2, conductivity and turbidity measurements are critical in modern wastewater treatment. METTLER TOLEDO offers reliable, cost-effective solutions to control industrial effluents.

    By Mettler - Toledo Int. Inc based in Greifensee, SWITZERLAND.

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    Water monitoring technology for flood warning

    Flood warning systems built into hydrological stations are used to notify local emergency authorities in the case of a flood event.

    By The OTT Hydromet Group based in Kempten, GERMANY.

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    Mercury analysis for wastewater

    By Analytik Jena AG based in Jena, GERMANY.

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    Applications of low gas flow measurement in wastewater analysis

    Whether you are a researcher or an operator working with wastewater treatment processes, it is crucial to have access to highly accurate and precise data to get insight into the wastewater treatment processes.

    By Bioprocess Control Sweden AB based in Lund, SWEDEN.

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    Wastewater flow monitoring

    By Stevens Water Monitoring Systems, Inc. based in Portland, OREGON (USA).

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    Online monitoring solutions for the Wastewater Treatment industries

    AppliTek`s large portfolio of on-line analyzers enables you to monitor precisely the complete treatment process, from influent to effluent. Compliance with discharge regulations is another application example and typically expressed as sum parameters, for which AppliTek has unique solutions.

    By AppliTek NV based in Nazareth, BELGIUM.

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    Industrial wastewater treatment

    The wastewater quality of industrial effluents varies a lot depending on the type of industry. Even in the same industry one can observe significant differences in characteristics of the wastewater to be treated. For this reason each application needs a specific design and approach to suit the requirements of the client. Many other parameters also enter the difficult equation that process designers and engineers have to resolve so to produce the most suitable solution for treatment of industrial effluents.

    By DEVISE ENGINEERING S.A. based in Athens, GREECE.

  • Distributed Temperature Sensing Technology for Stream Monitoring

    Temperature is an important factor in streams ecosystems. Heat tracers have been used to characterize contaminant transport, infiltration rates and energy exchange with groundwater, the atmosphere and radiation. The dynamics of these complicated water bodies is also affected by seasonal and diurnal patterns making characterization particularly challenging. Utilizing temperature measurements that capture spatial and temporal variations at stream ecosystem interfaces provides a mechanism for detailed characterization.

    By Silixa Ltd based in Elstree, UNITED KINGDOM.

  • Continuous Monitoring of Wastewater

    The Sorbisense method allows for efficient monitoring of the sewage system and can help reduce costs of operation and environmental impact. The method is particularly well suited for tracking the source of periodic discharges, the identification of faulty pipe connections of the measuring of values in the recipient. The method also allows for measurements in dynamic sources - such as emissions from roads, roofs, parking lots and overflow

    By Sorbisense A/S based in Tjele, DENMARK.

  • Disposal and Cleaning Equipment for Waste Water Industy

    Drinking water is not the only area requiring flow monitoring. The disposal and cleaning of waste water also requires flow meters. Waste water used to be dumped directly into the soil or an open channel. As awareness has increased, most discharges are now treated to assure long term sustainability. Modern water treatment plants are highly complex systems that require the use of flow sensors to monitor flow velocity in open channels for waste water discharge. Likewise facilities for waste water collection and clarification plants need regular data on flow rate. The use of radar non contact flow measurement and ultrasonic doppler flow meters are particularly efficient. HydroVision can complete flow measurements in all of these areas.

    By HydroVision GmbH based in Kaufbeuren, GERMANY.

  • Laboratory equipments for fat oil & grease FOG in waste water

    Measurement of Fats, Oils and Grease (FOG) in waste water is a crucial parameter in water quality control and environmental monitoring performed by water suppliers’ laboratories and environmental authorities; the contamination builds up in the sewerage system and will eventually lead to blockages. Typically the waste water is analysed by first passing a large volume through a filter then selectively determining the grease build-up on the dried filter by an analytical method.

    By Oxford Instruments plc based in Abingdon, UNITED KINGDOM.

  • OneRainware™ - Radar rainfall for real-time and analytical applications.

    Accurate estimation of the spatial distribution of rainfall is critical to successfully model hydrologic processes. OneRain has worked with engineering firms and those with responsibilities in Stormwater and Wastewater Management across the U.S. to provide radar rainfall data to help characterize storm events or flow problems in collection systems and as a basis for both real-time and design-oriented modeling. OneRainware products and services offer: *Real-time gauge-adjusted radar rainfall (GARR) data *Real-time area-average rainfall *Real-time forecast rainfall *End-of-month archive quality gauge-adjusted radar rainfall data *Historical and post-event analysis using archived rainfall estimates *Web-delivered calibrated radar-rainfall data *StormProperties™ Analysis. GARR data are used in flood warning, runoff modeling, basin modeling, I/I studies, litigation, real-time control, design storms, and National Pollutant Discharge Elimination System (NPDES) compliance activities.

    By OneRain Incorporated based in Longmont, COLORADO (USA).

  • Oil in Water Monitoring

    Detection of hydrocarbons within both water sources and effluent intake to Waste Water Treatment Works is an increasing requirement. The UviLux Hydrocarbon fluorometer detects hydrocarbons in water at very low concentrations. This in-situ fluorometer provides a rugged sensor which can be deployed in a wide variety of configurations. The UviLux is part of the Lux range of CTG fluorometers, and can be provided with a number of options with regard to signal protocols, and has available accessories to enable in-flow monitoring as well as inclusion within portable systems for taking measurements in the field.

    By Chelsea Technologies Group based in West Molesey, UNITED KINGDOM.

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