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TOC analysis - why it is so important

At a time when the cleanliness of water and air is a top priority, TOC (Total Organic Carbon) analysis plays a central role. It enables us to precisely measure and monitor organic contaminants.

By using advanced NDIR (non-dispersive infrared) sensors, we can tackle these challenges with high precision and reliability. The development and perfection of our sensors reflect our long-standing commitment to quality and innovation.

As a leading manufacturer of NDIR sensors, we understand the growing need to provide accurate and rapid analytical methods for assessing water and air quality. Our sensors are the result of intensive research and development and are in line with our commitment to environmental protection and sustainability. They enable environmental engineers and scientists to effectively monitor concentrations of organic carbon compounds, which is essential for meeting regulatory environmental standards and ensuring public health. This technology not only supports a sustainable environmental strategy, but also provides the flexibility to adapt to new regulatory requirements and environmental conditions.

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The most important points summarized:

  • NDIR sensors (Non-Dispersive Infrared) are used for precise and reliable measurements of organic contaminants.
  • The manufacturer has a long-standing commitment to quality and innovation in the development of NDIR sensors.
  • There is a growing need for fast and accurate analytical methods to assess water and air quality.
  • As a result of intensive research, NDIR sensors support environmental engineers and scientists in the effective monitoring of organic carbon compounds.
  • This technology contributes significantly to compliance with legal environmental standards and ensures public health.
  • The flexibility of the sensor technology makes it possible to adapt to new regulatory requirements and environmental conditions.
  • The development of the sensors is in line with environmental protection and sustainability.

Basics of TOC analysis

TOC (Total Organic Carbon) analysis has established itself as an indispensable tool for effectively monitoring organic pollution in water and air. This method measures the total organic carbon in a sample, which serves as a reliable indicator of the presence and extent of organic pollution. Its application is not limited to the measurement of pollution; rather, it is a critical component in the assessment of water quality in a variety of industrial and environmental contexts.

TOC analysis makes a significant contribution to increasing the operational efficiency of water treatment plants. It ensures precise compliance with both wastewater and drinking water regulations by providing fast and accurate measurement data. This data is essential for monitoring and controlling water treatment processes, which is particularly important in industries such as chemical and pharmaceutical production and in municipal waterworks.

With its ability to provide accurate results quickly, TOC analysis not only enables continuous monitoring of water quality, but also proactive management of potential ecological risks. It supports environmental engineers and managers in reacting to changes in water composition at an early stage and taking appropriate measures to reduce environmental pollution.

TOC analysis is also a key tool in environmental monitoring. It helps to quickly identify and quantify ecological pollution, which enables a prompt response to environmental problems. This is particularly important in order to prevent long-term environmental damage and effectively protect natural resources.

The most important points summarized:

  • TOC analysis is essential for monitoring organic contamination in water and air.
  • It measures the total organic carbon in samples and serves as an indicator for organic contamination.
  • TOC analysis is used in industrial and environmental contexts to assess water quality.
  • TOC analysis is used to increase the operating efficiency of water treatment plants by ensuring precise compliance with water regulations.
  • It plays an important role in the monitoring and control of water treatment processes, particularly in the chemical and pharmaceutical industries and in municipal waterworks.
  • It enables continuous monitoring of water quality and proactive management of ecological risks.
  • It supports environmental engineers and managers in reacting to changes in water composition at an early stage and taking environmentally friendly measures.
  • It is an important tool in environmental monitoring for the rapid identification and quantification of ecological impacts and the prevention of long-term environmental damage.

Technical process of TOC analysis

TOC (Total Organic Carbon) analysis is a complex and multi-stage process that begins with the meticulous collection of a water or air sample. This initial phase is crucial as the quality and consistency of the sampling directly influences the reliability of the analysis results.

After the sample has been taken, it is introduced into a TOC analyzer. Inside the analyzer, the sample undergoes a special process to convert all organic compounds into carbon dioxide (CO2 ). This conversion is usually done either by high-temperature combustion or by UV persulphate oxidation, depending on which method best suits the specific requirements of the analyzer and the sample to be tested.

After the oxidation of the organic materials to CO2 , the NDIR sensor (non-dispersive infrared sensor) takes on a critical function in the analysis process. It measures the concentration of CO2 in the sample by detecting the amount of infrared light that the CO2 absorbs. The amount of light absorbed correlates directly with the concentration of organic carbon in the sample. In this way, the NDIR sensor enables precise quantification of the total organic carbon, which in turn provides a direct measure of the organic load in the sample under investigation.

Thanks to this detailed and precise measurement, TOC analysis enables an effective assessment of organic pollution in water and air samples. This is of crucial importance for:

  • environmental monitoring,
  • industrial processes
  • and compliance with statutory environmental standards.

The results of the TOC analysis provide valuable information that can contribute to the control and improvement of environmental quality by making it possible to precisely identify contaminants, determine their sources and initiate suitable measures to reduce or eliminate these environmental burdens.

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The most important points summarized:

  • TOC analysis is a complex process, starting with careful sampling for reliability.
  • The samples are converted into CO2 , usually by combustion or oxidation in the TOC analyzer.
  • The NDIR sensors measure the CO2 concentration, which provides a direct measure of organic carbon.
  • It enables a precise assessment of organic pollution in water and air.
  • It is essential for environmental monitoring and compliance with standards.
  • It provides important information for monitoring and improving environmental quality.

NDIR sensors: a technological solution

NDIR sensors are at the heart of TOC analysis and play a crucial role in the precise measurement of organic contamination. Our specially developed models, such as SILAREX and FLOW EVO, are tailor-made for the specific requirements of TOC analysis. These sensors are not only known for their high accuracy and reliability, but also for their robustness and ease of use, making them essential instruments in environmental analysis.

These advanced NDIR sensors have a wide range of applications. They use infrared technology to precisely measure the concentration of gases - particularly carbon dioxide (CO2 ), which is produced as a result of the oxidation of organic matter. This precise measurement capability is critical as the accuracy of the CO2 measurement directly affects the reliability of the overall TOC determination.

The advanced technology and ease of use of our NDIR sensors provide extensive support for laboratory personnel performing daily analyses. They contribute significantly to increasing the efficiency and accuracy of these analyses. In addition, our sensors play a crucial role in optimizing process control in various industrial applications and help to ensure compliance with strict environmental regulations. By using our NDIR sensors, companies and environmental authorities can be confident that they are receiving accurate data that is essential for monitoring and improving environmental quality.

The most important points summarized:

  • NDIR sensors are at the heart of TOC analysis.
  • Specially developed models such as SILAREX and FLOW EVO are optimized for TOC analysis.
  • They are known for their high accuracy, reliability, robustness and user-friendliness.
  • They precisely measure the concentration of gases, in particular CO2 , which is produced during the oxidation of organic substances.
  • The accuracy of the CO2 measurement influences the reliability of the entire TOC determination.
  • They support laboratory staff in their daily analyses and increase efficiency and accuracy.
  • They optimize process control in industrial applications and ensure compliance with environmental regulations.
  • They provide precise data for monitoring and improving environmental quality.

The role of NDIR sensors in TOC analysis

NDIR sensors are indispensable in TOC analysis as they enable the precise determination of organic carbon in water and air samples. These highly accurate measurements are essential for critical areas such as environmental monitoring, water treatment and industrial process control. The ability of these sensors to provide accurate data on the concentration of organic carbons is crucial for a reliable assessment of the quality of water and air.

NDIR sensors play a key role in ensuring compliance with environmental standards. They enable operators of water treatment plants and industrial facilities to control and optimize their processes more effectively. Precise and continuous monitoring of TOC levels allows immediate action to be taken to minimize potential environmental impact, ensuring the safety and purity of water and air resources.

These accurate sensors are therefore essential to maintain high environmental quality standards and support sustainable operating practices. Their reliable performance not only helps with regulatory compliance, but also promotes proactive environmental management strategies aimed at reducing ecological impact and protecting the long-term health of our planet.