Chemical industry
Ensuring the quality of water used in production processes and monitoring industrial wastewater.
Liquide Analysis
Liquid analytics in industry is a field focused on monitoring, measuring, and controlling the quality of water and condensates in various industrial processes, as well as analyzing wastewater to ensure compliance with environmental standards. The main objective of water analytics is to ensure the required quality parameters of water used in production and to monitor the environmental impact of industrial water consumption.
It is an essential tool for ensuring effective water resource management, environmental protection, and compliance with legal and ecological standards. It enables the monitoring of water quality used in production, the identification of potential issues in water systems, the optimization of water treatment processes, and the control of wastewater emissions.
Applications of liquid analytics in various sectors:
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Energy industry
Monitoring of cooling water and quality control of water used for steam production in power plants.
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Food industry
Ensuring the quality of drinking and process water, as well as controlling contaminants in water used for food production.
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Petrochemical industry
Ensuring the quality of water used in refineries and monitoring refinery wastewater.
Solutions and types of measurements
Types of measurements in water analytics include various methods and technologies that allow for the assessment of water quality and its chemical, physical, and biological composition. Here are the main measurement categories:
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Physicochemical measurements
Analysis of basic parameters such as pH, temperature, electrical conductivity, hardness, and salinity.
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UV-Vis and IR spectroscopy
Used for identifying and measuring the concentration of chemical compounds in water (e.g., heavy metals, nitrates, phosphates).
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Ion chromatography
Used for measuring anions and cations in water, particularly for substances such as nitrates, sulfates, and metals.
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Automated analyzers
Used for continuous, real-time monitoring of water parameters, including analyzers for total carbon, organic compounds, ammonia, nitrates, and phosphates. They may employ titration methods.
Key advantages of industrial liquid analytics include:
Regular water monitoring allows for the optimization of industrial processes, reducing water consumption as well as costs associated with its treatment and processing.
Proper monitoring of water parameters, such as hardness, salinity, and contaminants, helps protect industrial installations from corrosion, scale, and other damage.
Monitoring and proper treatment of wastewater help minimize the negative impact of industry on the environment.
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