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The process of identifying an element’s stable isotope abundance inside organic and inorganic compounds is known as isotope analysis.
Isotopic analysis can be used to investigate human and animal diets, for food authentication, and a variety of other physical, geological, palaeontological, and chemical processes.
It can also be used to understand the flow of energy through a food web and to reconstruct historical environmental and climatic conditions. Mass spectrometry, which divides the various isotopes of an element according to their mass-to-charge ratio, is used to measure stable isotope ratios.
The Global isotope analysis market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
The updated model CCIA2-912 offers measurements of 13C and 18O, as well as mole fractions (concentrations) of carbon dioxide and water vapour, with excellent accuracy and up to 1 Hz measurement rates.
The enhanced Carbon Dioxide Isotope Analyzer model CCIA2-912 from ABB includes a new fiber-coupled laser and offers many features that researchers require when measuring isotopic carbon dioxide, such as ultra-low drift and high precision, the capacity to measure 18O in CO2, the capacity to measure water vapour in air, 13C and 18O measurements for CO2 ranging from 300 to 25000 ppm, and Automatic determination of 13C.
Additionally, the CCIA2-912 Carbon Dioxide Isotope Analyzer is user-friendly and uses little power, making field measurements possible. Even when such values change quickly, the equipment delivers precise isotopic ratio readings over a very broad range of CO2 values.
