The content of sulfur, chlorine and other elements detected in fuel oil is directly related to the combustion efficiency of the fuel, the degree of environmental pollution, the risk of equipment corrosion and the quality of the product.
Therefore, accurate detection is of great significance to ensure energy efficiency, environmental protection, equipment safety and improve product quality. TXRF technology can quickly and accurately measure the content of light elements such as sulfur and chlorine in fuel oil, helping companies achieve precise quality control, thereby effectively improving product quality, significantly reducing harmful gas emissions, and extending the service life of related equipment.
Chemical reagents are chemical substances with relatively high purity that meet certain quality requirements. As the material basis of analytical work, the purity of reagents directly affects the accuracy of experimental results and data. The presence of heavy metal impurities may interfere with chemical reactions, causing experimental results to deviate from expectations.
TXRF technology has simple sample pre-processing and does not require complicated steps such as acidification and digestion. It requires a very small amount of sample, and usually only μL/ng level samples can be analyzed. This is especially important for precious reagent samples or hard-to-access samples, minimizing sample waste and loss.
During the brewing process, raw materials, water sources, equipment, etc. may introduce heavy metal elements. If these heavy metal elements exceed the standard, they will have a serious impact on the quality and safety of wine. Not only may they destroy the flavor and texture of wine, they may also pose a potential threat to human health.
TXRF technology is a highly sensitive, accurate, non-destructive, fast and convenient heavy metal detection method that can help brewing companies discover and deal with potential heavy metal pollution problems in a timely manner to ensure product quality and safety.
High-precision optical instruments, medical equipment and other fields have extremely strict performance requirements for optical glass. Excessive trace amounts of heavy metal elements in optical glass may have adverse effects on optical performance, physical properties, environment and health, as well as the application of optical glass.
Therefore, during the production and use of optical glass, it is particularly important to strictly detect heavy metals. TXRF technology is known for its high precision and can accurately measure trace amounts of heavy metal elements in optical glass, ensuring product quality and compliance with relevant standard.
