Water Analysis
- Technology for monitoring of surface waters, e.g., lakes, rivers, and seas
- Devices for quality analysis of raw and tap water by utility companies
- Analyzers for pool water from leisure and spa facilities
With specific measuring routines, our devices support you in ensuring a supply of high-quality drinking and process water. Our measurement technology complies with standards and is tailored to your customer-specific applications.
Achieve reliable results
- Minimal detection limits to exceed regulation requirements
- Intelligent hardware and software for high method flexibility
- Automatic method recognition
- High matrix tolerance (e.g., for sea water)
Simplify your workflow and increase your efficiency
- Flexible automation options adapted to your workload
- Minimal effort required for sample preparation
- Matrix-specific method optimization done by our support
- Low maintenance, simple and fast setup changes
- Automated process control (Self Check System)
Analyze with our products
- Total organic carbon and total bound nitrogen
TOC/TNb - Adsorbable organic halogens, total halogens, and extractable organic halogens
AOX - Organic fluorine compounds (AOF, EOF)
AAS - Minerals and metals
UV/Vis - Elements down to ultra-trace range
AAS, ICP-OES, ICP-MS - Minimal mercury concentrations
ICP-MS, CV-AAS/AFS - Microbial parameters
Nucleic acid extraction kits, (real-time) thermal cycler
With specific measuring routines, our devices support you in ensuring a supply of high-quality drinking and process water. Our measurement technology complies with standards and is tailored to your customer-specific applications.
Monitoring Carbon and Fluorine Parameters as well as Chromium Species and Other Heavy Metals in Various Water Bodies
In this web seminar we look closer into interesting topics on contaminants in natural water bodies. We will dive headfirst into Chromium speciation analysis, decent into the deep realms of TOC and TNb analysis by the new multi N/C x300 series, before the vast sea of sample preparation for AOF, as a sum parameter for PFAS, emerges before our eyes.
Exclusive e-book: Water and wastewater analysis
Our exclusive e-book offers a comprehensive overview of methods and solutions for water and wasterwater monitoring - from UV/Vis spectroscopy, sum parameter analysis to elemental analysis and microbiological testing.
Water pathogen detection
Discover simplified and reliable ways for the detection of water-based pathogens. Learn wich indicators Analytik Jena solutions are ideal for and how effiecient biological water testing can be done.
Monitoring drinking water for trace elements with ICP-OES
The approach presented in this application example describes the analysis of minerals and trace elements in drinking water with a standard ICP-OES setup. Thanks to this method laboratories are even able to handle addional parameters in local or regional drinking water monitoring regulations. For example the detection of trace uranium is a required parameter for drinking water in Germany due to some deposits in local geological formations.
EOF - a new screening parameter for surface water
EOF is a new screening parameter for organically bound fluorine in surface water. In our web seminar we present a sensitive screening method of extractable organically bound fluorine (EOF) as sum parameter in surface waters combining solid phase extraction (SPE) and molecular absorption spectrometry (MAS) which enables a fast monitoring of the pollution.
Applications water analysis
Determination of turbidity, color and SAC254 in surface water using UV/Vis spectroscopy according to DIN EN ISO 7027-1, DIN EN ISO 7887 and DIN 38404-3 (DE)
Open PDFDetermination of EOF in surface water with molecular absorption spectrometry (EN)
Open PDFSpurenanalyse toxischer Elemente in Oberflächen- und Trinkwasser mit kombinierten AAS-Techniken (DE)
Open PDFTrace analysis of toxic elements in surface and drinking water by combined AAS techniques (EN)
Open PDFMonitoring Drinking Water Quality with the PlasmaQuant MS (EN)
Open PDFBestimmung von Quecksilber im Ultraspurenbereich mit ICP-MS (DE)
Open PDFDetermination of Concentration by Means of a Calibration Curve – Exemplified by Surfactant Measurements According to PD CLC/TS 50677:2019 (DE)
Open PDFDetermination of Concentration by Means of a Calibration Curve – Exemplified by Surfactant Measurements According to PD CLC/TS 50677:2019 (EN)
Open PDFUltra-Trace Determination of Mercury in Environmental Waters by ICP-MS (EN)
Open PDFDetermination of Trace Elements in Seawater using ICP-MS (EN)
Open PDFDetermination of Concentration by Means of a Calibration Curve – Exemplified by Surfactant Measurements According to PD CLC/TS 50677:2019 (DE)
Open PDFHochdurchsatz-Analyse von Trinkwasser mit ICP-MS (DE)
Open PDFHigh-throughput Analysis of Drinking Water with ICP-MS (EN)
Open PDFMonitoring Drinking Water Quality With HR ICP-OES (EN)
Open PDFÜberwachung der Trinkwasserqualität mit dem HR ICP-OES (DE)
Open PDFDetermination of Adsorbable Organic Halogens in Highly Saline Water Samples after Solid Phase Extraction (EN)
Open PDFBestimmung von adsorbierbaren organisch gebundenen Halogenen in stark salzhaltigen Wasserproben nach Festphasenextraktion (DE)
Open PDFTOC Determination in Raw and Drinking Water (EN)
Open PDFTOC-Wiederfindung in partikelhaltigen Proben mit dem Cellulose-Test nach DIN EN 1484 (DE)
Open PDFTOC Recovery in Particle-Containing Samples with the Cellulose Test According to DIN EN 1484 (EN)
Open PDFDetermination of Concentration by Means of a Calibration Curve – Exemplified by Surfactant Measurements According to PD CLC/TS 50677:2019 (EN)
Open PDFContact
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