FEATURES OF CO2 GRAPHITIZATION SYSTEM CORgiS
– 10 units of graphitization reactors. Each unit has independent cooling and heating system, control and reactor monitoring electronics.
– 1 CO2 adsorption trap, to collect sample material from elemental analyzer.
– Ultra-low volume sample delivery piping reducing overall sample lost in the process.
– Fast and responsive controlling system with integrated computer and software.
– External scroll vacuum pump, vacuum solution without oil to eliminate hydrocarbon contamination risk.
– Compatible to work in line with Elementar vario EL cube, vario ISOTOPE select, vario ISOTOPE cube elemental analyzers, also with isoprime precisION stable isotope mass spectrometer
CORgiS IS DESIGNED FOR EASE OF USE AND MAINTENANCE
The system is equipped with a carousel of reactors that can rotate 320 degrees, enabling easy access to each reactor for loading and unloading test tubes. A special tool is provided to secure the reactor caps, reducing the amount of force required and ensuring the operator’s hands are protected during the loading and unloading of test tubes.
The ten reactors are separated into two distinct sections of five each. This configuration optimizes time efficiency. With this design, various procedures can be carried out simultaneously; for instance, while five reactors are undergoing graphitization, the remaining five can be loaded, unloaded with samples, or subjected to preconditioning.
The required consumables, such as test tubes, adhere to standardized specifications used in other graphitization systems available in the market. This standardization facilitates the seamless integration of the CORgiS system into an AMS radiocarbon dating laboratory. It ensures that customers can easily incorporate the CORgiS system and have a reliable and diversified supply of consumables from various sources
CORgiS IS IDEAL FOR A WIDE RANGE OF APPLICATION FIELDS, INCLUDING ARCHAEOLOGY, GEOLOGY AND BIOBASED CARBON CONTENT TESTING
The CORgiS system is designed with parameters that enable the graphitization of samples containing natural radioactivity. Its versatility extends across a spectrum of scientific disciplines, including Archaeology, Geology, Environmental Science, Paleontology, Climate Science, Anthropology, Forensic Science, Oceanography, Art History and Conservation, and Volcanology. Furthermore, it can find practical use in an industrial oil refinery laboratory, where it can graphitize samples on an hourly basis for quality control monitoring. This technological tool is indispensable for any AMS radiocarbon measurement laboratory anticipating a high load samples.