The MoSES 1.25 and 1.50 Production Series extractors are fully automated modular systems designed to perform CO2 extractions under subcritical or supercritical conditions, at pressures ranging from 1 to 350 bar and temperatures up to 85 °C, at a functional CO2 flow rate up to 200 kg/h.
MoSES 1.25.2 Modular SCE V2 & CoSol ERES
Material: 129158
These systems enable fast, selective, and run-to-run repeatable extractions using supercritical fluids alone or in combination with cosolvents. They are optimized for the extraction of bioactive components from natural matrices but can also serve as reactors for the preparation of advanced materials, for orthopedic implant cleaning, for textile dyeing or to run catalytic reactions.
By regulating the temperature and pressure, it is possible to control the polarity and solvating power of a supercritical fluid and, consequently, target and selectively extract the required components.
The integrated PLC provides automated and reproducible operation, where the process parameters (temperature, pressure, flow, extraction time, S/S ratio) are set and stored as a method (recipe).
After exiting the automatic back pressure regulator (ABPR), the system pressure is reduced, causing the CO2 to lose its solvating power. When the manual back pressure regulators (MBPRs) are properly set, the extracted material precipitates out of the solution and into the collection vessels.
The collection vessels are arranged in consecutive order to enable a series of steps with decreasing pressures to isolate the collected compounds. This enables extract fractionation, resulting in purer, cleaner fractions that require less post-processing purification.
The trapped and condensed CO2, still in the gas state, is finally transferred to a recycling system and can be simply and cost-efficiently reused.
