Category: Water Quality & Analytical Instruments

Water Quality & Analytical Instruments

  • Water Analyzer - Seibold

    Aluminium Analyzer | Franz von Suppe

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    Aluminium Analyzer Franz von Suppe Overview

    The Aluminium Analyzer Franz von Suppe can perform continuous analysis of metals, such as Aluminium (Al), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Aluminium Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures people free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Natural sources. Aluminum (Al) is the most abundant metallic element in the lithosphere.
    Industry. Aluminium salts are widely used in water treatment as coagulants to reduce organic matter, colour, turbidity, and microorganism levels. Such use may lead to increased concentrations of aluminium in finished water.
    Drinking water. Important sources of elevated Al concentrations in drinking water are the use of Al-based flocculating agents such as Al2(SO4)3.
    Concentrations of aluminium of 0.1 mg/liter or less are achievable in large water treatment facilities.
    Toxicity. There is little indication that orally ingested aluminium is acutely toxic to humans despite the widespread occurrence of the element in foods, drinking water, and many antacid preparations. It has been hypothesized that aluminium exposure is a risk factor for the development or acceleration of the onset of Alzheimer disease (AD) in humans

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Aluminium Analyzer Franz von Suppe Features

    • Robust design.
    • Minimal maintenance.
    • Easy handling.
    • High accuracy and precision.
    • Suitable for mission-critical applications.
    • Automated cleaning and calibration.

    Datasheet

  • Water Analyzer - Seibold

    Arsenic Analyzer | Wilhelm Kienzl

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    Arsenic Analyzer Wilhelm Kienzl Overview

    The Arsenic Analyser Wilhelm Kienzl can perform continuous analysis of metals, such as Arsenic (As), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Arsenic Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures people free operation. Automated calibration and cleaning steps support this goal.

    Arsenic is found in the atmosphere, in water, soils, sediments, and organisms due to releasing by various industrial processes, mining or smelting, and agricultural activities as well as a by-product of coal combustion.
    Natural sources. Arsenic is found in more than 245 minerals.
    Anthropogenic sources. The main sources of arsenic are copper and lead ores.
    Industry. Arsenic is used as an additive in special alloys, in the microelectronics and the semiconductor industry, as a decolorizing agent in the glass and ceramics industries.
    Arsenic in water. Arsenic is found in groundwater as a result of the strong influence of water-rock interactions. Usual groundwater concentrations range from 0.5 to 10 µg/L.
    Drinking water. The current WHO provisional level of As in drinking water for the European Union is 10 µg/L, and the current level in the United States is 50 µg/L.

    Method: Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Arsenic Analyzer Wilhelm Kienzl Features

    • Robust
    • Minimal
    • Easy
    • High accuracy and
    • Suitable for mission-critical
    • Automated cleaning and

    Datasheet

  • Water Analyzer - Seibold

    Cadmium Analyzer | Carl Zeller

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    Cadmium Analyzer Carl Zeller Overview

    The Cadmium Analyzer Carl Zeller can perform continuous analysis of heavy metals, such as Cadmium (Cd), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Cadmium Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Cadmium compounds belong to the most hazardous pollutants in the environment.
    Industry. Cadmium metal is used in the steel industry and in plastics. Cadmium compounds are widely used in batteries.
    Drinking water. Contamination in drinking water may also be caused by impurities in the zinc of galvanized pipes and solders and some metal fittings. A guideline value of 0.005 mg/liter was recommended for cadmium in drinking- water.
    Toxicity. Cadmium is toxic to a wide range of organs. Primary targets are the kidneys, bone, and the lung.

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    • Robust design.
    • Minimal maintenance.
    • Easy handling.
    • High accuracy and precision.
    • Suitable for mission-critical applications.
    • Automated cleaning and calibration.

    Datasheet

  • Water Analyzer System

    Calcium and Magnesium Analyser | Antojn Bruckner

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    Calcium and Magnesium Analyser - Antojn Bruckner Overview

    The Calcium and Magnesium Analyser - Antojn Bruckner can perform continuous analysis of heavy metals,  Calcium (Ca) and Magnesium (Mg), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Calcium and Magnesium Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    To prevent membrane poisoning, new membrane technology in Chlor-alkali cells requires feed brine that is relatively free of alkaline earth metals. Membrane manufacturers recommend that saturated brines be purified to a total hardness below 50 µg/L (ppb) to extend membrane life and ensure electrical current efficiency in the cell. Industrial laboratories have been concerned with the determination of calcium and magnesium in brine for a number of years.

    Method
    Calcium and Magnesium are measured in sum and separate by the HNB/EDTA volumetric method. The SEIBOLD titrator Johann N. Hummel is an online titration unit for equilibrium and endpoint detection. By defining the concentration of the titrator the resolution can be adjusted to specific needs and measurement ranges. The titration works in flow-through mode and can work real continuously. The consumption of chemical solutions could be minimized because of using SEIBOLD's unique measurement chain memory.

    Calcium and Magnesium Analyser Features

    • Robust design.
    • Minimal maintenance.
    • Easy handling and long-living.
    • Highest accuracy of measurement and high precision.
    • Suitable for mission-critical applications.
    • Automated cleaning and calibration and dilution.
    • Can perform complex control tasks via analog and digital communication.
  • Chlorine Analyzer 4630

    Chlorine Analyzer | 4630

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    Chlorine Analyzer 4630 Overview

    The Chlorine Analyzer 4630 System is an integrated all-in-one system designed to measure free chlorine. The Chlorine Analyzer 4630 has a pH sensor that is used to accurately measure free chlorine in applications that have varying pH values (±0.20 pH units).  Because free chlorine concentration is pH-dependent, the Chemical Guard feature interrupts/disables the relay that is assigned to the oxidant chemical (such as sodium hydrochloride) until the pH of the application is corrected. The 4630 series also comes complete with a flow switch that will disable the mechanical relays to the dosing pumps when the system is off or the flow is interrupted to the flow cell.

    The unique integrated clear flow cell accommodates the free chlorine and pH electrode, flow regulator, filter, and variable area flow indicator in one compact unit. An integrated flow regulator with a removable filter accepts inlet pressures of 1 to 8 bar (15 to 120 psi) while maintaining constant flow and minimal pressure to
    the sensors. Water flows vertically into the sensor tip eliminating bubble entrapment. The flow cell is designed to maintain a minimum amount of water to ensure sensors stay submerged, even when the system and flow is turned off. The 4630 Free Chlorine Analyzer System comes complete with everything needed to support chlorine monitoring for 1 full year of operation. Panel design allows quick and easy installation and comes complete with four 4 to 20 mA outputs, a flow switch with relay interrupt, four binary inputs, and two mechanical relays.

    Chlorine Analyzer 4630 Features

    • EPA 334.0 Compliant
    • Reagent free measuring
    • Chemical Guard prevents overdosing on oxidants chemicals
    • Built-in flow switch
    • Chlorine and pH electrode performance data
    • Automatic timestamp after successful calibration
    • Customer enabled alarm feature for recalibration
    • Complete panel system allows for quick and easy installation
    • Built-in flow regulator maintains constant flow and pressure to the sensors regardless of inlet pressure
    • Automatic pH compensation

    Datasheet

  • Metals Water Analyzer

    Chromium Analyzer | Heinrich Proch

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    Chromium Analyzer Heinrich Proch Overview

    The Chromium Analyzer Heinrich Proch can perform continuous analysis of metals, such as Chromium (Cr), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Chromium Analyzer guarantees a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Chromium Analyzer Heinrich Proch Features

    Sources

    Natural sources. Chromium is widely distributed in the Earth’s crust. It can exist in valences of +2 to +6. In general, food appears to be the major source of intake.
    Industry. Chromium is seldom used alone; as an additive, it endows alloys or materials with new properties: strength, hardness, permanence, hygiene, color, and resistance to temperature, wear, and corrosion.
    Drinking water. A guideline value of 0.05 mg/liter of total chromium is recommended in drinking water.
    Toxicity. In humans and animals, Cr(III) is an essential nutrient. The overall toxicity, carcinogenicity, and general hazards of chromium are highly related to chemical speciation, the hexavalent chromium compounds being more toxic than the trivalent compounds.

    Method

    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout the cuvette containing formed metal complex is directly proportional to metal concentration.

    Datasheet

  • Metals Water Analyzer

    Cobalt Analyzer | Gustav Mahler

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    Cobalt Analyzer Gustav Mahler Overview

    The Cobalt Analyzer Gustav Mahler can perform continuous analysis of metals, such as Cobalt (Co), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Cobalt Analyzer guarantees a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources

    Natural sources. Natural sources of cobalt in the environment are soil, dust, seawater, volcanic eruptions, and forest fires.
    Industry. Cobalt is used for the manufacture of alloys, hard metals, and magnets.
    Drinking water. A guideline value of 0.01 mg/liter was recommended for cobalt in drinking water.
    Toxicity. As a constituent of vitamin B12, cobalt is an essential element and, so far, another physiological role of cobalt has not been demonstrated in human nutrition.

    Method

    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Cobalt Analyzer Features

    • Robust design
    • Minimal maintenance
    • Easy handling
    • High accuracy and precision
    • Suitable for mission-critical applications
    • Automated cleaning and calibration

    Datasheet

  • Con::Cube VS3

    Con::cube | Con::cube VS3

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    Con::cube VS3 Overview

    The Con::cube VS3 has the newest processor technology, it's a compact, versatile terminal for data acquisition and station control. It has very flexible options for interfacing to SCADA or any central database systems makes the Con::cube in combination with moni::tool a powerful terminal for compact station control.

    Con::cube VS3 Features

    • s::can high-end IoT (Internet of Things) terminal based on an industrial PC, IP65
    • Widescreen color graphical display (9”) and touch screen
    • Highly intuitive use, informative visualization & easy operation: time series, optical spectra, and all events in clear text
    • Sensor and station management of up to 64 parameters: automatic cleaning, data logging, sample & calibration including history and multipoint calibration, sensor function check, user management, and easy data transfer via USB-stick
    • Low power operation with less than 3 watts (@ 15 min. measuring interval): wide range AC and DC variants available
    • IoT (Internet of Things) and M2M (Machine to Machine) connectivity: 100 Mb/s Ethernet, 300 Mb/s WLAN, and optional worldwide WCDMA 4G interface, remote control (HTTP), and data transfer into “Cloud” via FTP, SSH, and TML
    • Process interface to SCADA via Modbus RTU/TCP, SDI-12, Profibus DP, analog 0/4-20 mA, and relay outputs (state)
    • Integration of third-party sensors via analog 0/4-20 mA and digital (solid-state) inputs, Modbus RTU/TCP
    • Easily extendable & all moni::tool features available:
      • 8 slots to customize I/Os
      • moni::tool software pre-installed
      • Additional software features like online data validation and event detection optional
  • Water Analyzer -2

    Copper Analyzer | Johann H. Schmelzer

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    Copper Analyzer Johann H. Schmelzer Overview

    The Copper Analyzer Johann H. Schmelzer can perform continuous analysis of metals, such as Copper (Cu), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Copper Analyzer Johann H. Schmelzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Copper is both an essential nutrient and a drinking-water contaminant
    Natural sources. Most of the world’s Cu is found and mined in the form of copper sulfides and in combination with other metals that can also form multi-metal- sulfide minerals (Fe, Sn, Pb, Se, As, Sb and Ag).
    Industry. Copper is used for in gelectroplating and semiconducting industry,…
    Natural water. Copper is found in natural surface waters at an average concentration of 0.002 mg/L, ranging from 0.001 to 0.1 mg/L, Cu in seawater is at the upper end of the range.
    Drinking water. Copper concentrations in drinking water vary widely, with the primary source most often being the corrosion of interior copper plumbing. A guideline value of 1.5 mg/liter was recommended for copper in drinking- water.
    Toxicity. Copper is not very toxic to animals and humans but can be toxic to some fish, many invertebrates and microbes, particularly fungi, algae, and bacteria.

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Copper Analyzer Features

    • Robust design.
    • Minimal maintenance.
    • Easy handling.
    • High accuracy and precision.
    • Suitable for mission-critical applications.
    • Automated cleaning and calibration

    Datasheet

  • Water Analyzer -2

    Copper and Nickel Analyzer | Alban Berg

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    Copper and Nickel Analyzer Alban Berg Overview

    The Copper and Nickel Analyzer Alban Berg can perform continuous analysis of metals, such as Copper (Co) and Nickel (Ni), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Copper and Nickel Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal. This process analyzer was developed and built for the industrial wastewater and drinking water Industry. The main advantages are the combined measurement in one measurement step and the use of non-toxic and non-hazardous reagents.

    Sources
    Industry. Nickel and Copper are used in alloys (stainless steel), electroplating, foundries, catalysts, welding rods, and coinage, and can be found in electronic equipment, construction materials, aerospace equipment, and consumer goods such as batteries, paints, and ceramics.
    Drinking water. Copper concentrations in drinking water vary widely, with the primary source most often being the corrosion of interior copper plumbing. A guideline value of 1.5 mg/liter was recommended for copper in drinking water.
    Toxicity. Inhaled nickel compounds are carcinogenic to humans and that metallic nickel is possibly carcinogenic. Allergic contact dermatitis is the most prevalent effect of nickel in the general population.

    Method
    The Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout measurement chamber containing formed metal complex is directly proportional to metal concentration.

    Copper and Nickel Analyzer Features

    • Non-dangerous chemistry and reagents
    • Robust design
    • Minimal maintenance
    • Easy handling
    • High accuracy and precision
    • Suitable for mission-critical applications
    • Automated cleaning and calibration

    Datasheet

  • Process Water Analyzer

    Cyanide Analyzer | Matthias G. Monn

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    Cyanide Analyzer Matthias G. Monn Overview

    The Cyanide Analyzer Matthias G. Monn can perform continuous analysis of heavy metals, Cyanide (CN-), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Low consumption of reagents and very high reagent stability ensures person-free operation, direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Cyanide Analyzer guarantee a long lifetime and minimum maintenance efforts. Automated calibration and cleaning steps support this goal.

    Sources
    Any chemical compound containing the cyano- group -C=N with the carbon atom triple-bonded to the nitrogen atom is a cyanide. The cyano-group can be found in various kinds of gaseous, liquid and solid compounds. Cyanide is introduced into organic molecules by displacement of the corresponding organic halide during industrial processes. Typical fields of business encountering cyanide are the steel industry, gold and silver mining, production of tints and varnish, synthetic resins, synthetic fibres, electroplating, coal and crude oil production.

    Toxicology
    For cyanide the guideline value for chemicals that are of health significance in drinking water according to World Health Organization (WHO) is 0.07 mg/liter as total cyanogenic compounds. Similar to hydrocyanic acid, cyanides are extremely toxic as a consequence of being able, even with very weak acids (e.g. water), to protonate and build hydrogen cyanide (HCN).

    Method
    Cyanide is measured as chelate complex between CN- ions in the water and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed complex is directly proportional to Cyanide concentration.

    Cyanide Analyzer Features

    • Robust Design.
    • Minimal maintenance.
    • Easy handling.
    • High accuracy and precision.
    • Suitable for mission critical applications.
    • Automated cleaning and calibration.
  • Water Analyzer System

    Iron Analyzer | Joseph von Eybler

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    Iron Analyzer - Joseph von Eybler Overview

    The Iron Analyzer - Joseph von Eybler can perform continuous analysis of heavy metals, such as Iron (Fe), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Iron Analyzer Joseph von Eybler guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Natural sources. Iron is one of the most abundant metals in the Earth’s crust. It is found in natural freshwaters at levels ranging from 0.5 to 50 mg/liter. Industry. Iron is used for various alloys, steel, in the galvanization process and other industrial processes.
    Drinking water. Iron may be present in drinking water as a result of the use of iron coagulants or the corrosion of steel and cast iron pipes during water distribution. There is usually no noticeable taste at iron concentrations below 0.3 mg/liter, and concentrations of 1–3 mg/liter can be acceptable for people drinking anaerobic well water.
    Toxicity. Iron is an essential element in human nutrition. Estimates of the minimum daily requirement for iron depend on age, sex, physiological status, and iron bioavailability and range from about 10 to 50mg/day. Portable water should contain iron, not more than 0.2 mg/L. Groundwater may contain iron at concentrations of several milligrams per liter.

    Method 
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Iron Analyzer Joseph von Eybler Features

    • Non-toxic chemistry !!!
    • Robust design
    • Minimal maintenance
    • Easy handling
    • High accuracy and precision.
    • Suitable for mission-critical applications
    • Automated cleaning and calibration

    Datasheet

  • Water Analyzer system on site

    Iron and Manganese Analyzer | Joseph Lanner

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    Iron and Manganese Analyzer - Joseph Lanner Overview

    The Iron and Manganese Analyzer - Joseph Lanner can perform continuous analysis of metals, such as Iron (Fe) and Manganese (Mn), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Iron and Manganese Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal. This process analyzer was developed and built for the industrial wastewater and drinking water Industry. The main advantages are the combined measurement in one measurement step and the use of non-toxic and non-hazardous reagents.

    Sources
    Drinking water. Iron may be present in drinking water as a result of the use of iron coagulants or the corrosion of steel and cast iron pipes during water distribution. There is usually no noticeable taste at iron concentrations below 0.3 mg/liter, and concentrations of 1–3 mg/liter can be acceptable for people drinking anaerobic well water. Manganese is naturally occurring in many surface water and groundwater sources, particularly in anaerobic or low oxidation conditions. A provisional health-based guideline value of 0.5 mg/liter should be adequate to protect public health.
    Toxicity. Iron is an essential element in human nutrition. Portable water should contain iron, not more than 0.2 mg/L. Groundwater may contain iron at concentrations of several milligrams per liter.

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout the measurement chamber containing the formed metal complex is directly proportional to metal concentration.

    Iron and Manganese Analyzer - Joseph Lanner Features

    • Nontoxic chemistry.
    • Robust design.
    • Minimal maintenance.
    • Easy handling.
    • High accuracy and precision.
    • Suitable for mission-critical applications.
    • Automated cleaning and calibration.

    Datasheet

  • Metals Water Analyzer

    Lead Analyzer | Georg Furxer

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    Lead Analyzer - Georg Furxer Overview 

    The Lead Analyzer - Georg Furxer can perform continuous analysis of heavy metals, such as Lead (Pb), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Lead Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Natural sources
    . Inorganic lead rarely exists in its elemental state but is found in the environment in various complexes. Industry. Lead is used principally in the production of lead-acid batteries, solder, and alloys; the organolead compounds used extensively as antiknock and lubricating agents in petrol.
    Drinking water. Lead is rarely present in tap water as a result of its dissolution from natural sources; from household plumbing systems. Concentrations in drinking water are generally below 5 mg/liter. The guideline value for lead is 0.01 mg/L.
    Toxicity. Lead is a general toxicant that accumulates in the skeleton. Lead is toxic to both the central and peripheral nervous systems, inducing sub-acute encephalopathic neurological and behavioral effects.

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Lead Analyzer - Features 

    • Robust Design
    • Minimal maintenance
    • Easy handling
    • High accuracy and precision
    • Suitable for mission-critical applications
    • Automated cleaning and calibration.

    Datasheet

  • Water Analyzer system on site

    Manganese Analyzer | Georg C. Wagenseil

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    Manganese Analyzer Georg C. Wagenseil Overview

    The Manganese Analyzer Georg C. Wagenseil can perform continuous analysis of heavy metals, such as Manganese (Mn), and many other parameters in water. Technologies employed are colorimetric (photometric) and ion-selective electrodes (ISE). Direct measurements, standard addition, and titration support the ideal measurement strategy. The robust design and high-quality parts of the Manganese Analyzer guarantee a long lifetime and minimum maintenance efforts. Low consumption of reagents and very high reagent stability ensures person-free operation. Automated calibration and cleaning steps support this goal.

    Sources
    Natural sources. Manganese is one of the most abundant metals in the Earth’s crust, usually occurring with iron.
    Industry. Manganese is used principally in the manufacture of iron and steel alloys, as an oxidant for cleaning, bleaching, and disinfection as potassium permanganate, and as an ingredient in various products. More recently, it has been used in an organic compound, MMT.
    Drinking water. Manganese is naturally occurring in many surface water and groundwater sources, particularly in anaerobic or low oxidation conditions. A provisional health-based guideline value of 0.5 mg/liter should be adequate to protect public health.
    Toxicity. Manganese is an essential element for humans and other animals. Adverse effects can result from both deficiency and overexposure. Manganese is known to cause neurological effects following inhalation exposure.

    Method
    Metal is measured as a chelate complex between metal ions in the wastewater and sensitive spectrophotometric reagent dye. Change of the intensity of the visible light throughout cuvette containing formed metal complex is directly proportional to metal concentration.

    Manganese Analyzer Features

    • Non-toxic chemistry.
    • Robust design.
    • Minimal maintenance.
    • Easy handling
    • High accuracy and suitable for mission-critical
    • Automated cleaning and calibration

    Datasheet