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The 30L extraction column system, featuring an optimized design for both pilot and industrial production, delivers outstanding performance and exceptional flexibility. Equipped with fully automated technology—from flow control and temperature regulation to CO2 recycling—this product ensures smooth operation and cost savings. Supercritical CO2 extraction system not only enhances product quality but also optimizes the production process, making it an ideal choice for businesses aiming for efficiency and sustainability.

The Supercritical CO₂ Extraction System is designed for industrial production with 300L or 600L extraction vessels, a maximum pressure of 345 bar, and a temperature of 70°C. The system is equipped with three 35L separators, precise pressure and temperature control, and a high CO₂ flow rate of 30 kg/min to optimize efficiency. With a fully automatic CO₂ recirculation system, a high-precision PID controller, and a heat pump with COP = 6, the system ensures clean extraction, energy efficiency, and environmental sustainability.

The SUPEREX SC-2000 extraction system is optimally designed for supercritical CO₂ extraction, making it particularly suitable for the food, pharmaceutical, and cosmetic industries. Equipped with a 2-liter extractor column and an additional 0.5-liter column, the system operates at a maximum pressure of 345 bar and temperatures up to 70°C. All surfaces in contact with the material are made of stainless steel, ensuring hygiene and preventing microbial attachment. Notably, the system features three separators, two of which allow pressure and temperature control, enhancing the efficiency of compound recovery. It also integrates PID algorithm-based temperature control, a digital automatic back pressure regulator (BPR), and CO₂ recycling and recovery capabilities, ensuring cost-effectiveness and high extraction efficiency. With its smart design, sample loading and cleaning are effortless, supporting optimal aroma extraction from liquid samples.

Introducing our state-of-the-art extraction system designed for precision and efficiency. It features a 4 L extraction vessel capable of operating at pressures up to 345 bar and temperatures up to 90°C. The system also includes two 1 L separators with precise pressure and temperature control (up to 220 bar and 70°C), a CO₂ liquefaction system for efficient pressure increase, and a co-solvent feed pump that delivers 50 ± 1.5 ml/min. Additionally, the integrated CO₂ recycling system achieves an efficiency of 90-95%, ensuring optimal resource utilization and consistent performance.

The SC-1000 supercritical CO₂ extraction system, designed for pilot-scale applications, optimizes the extraction of natural compounds with high efficiency. The system supports CO₂ recovery, the addition of an extra extractor or separator column, and automatic pressure control during the extraction process. With an automatic back-pressure regulator (BPR) and fully automated flow control, it ensures stable, precise, and energy-efficient operation.

The SFC (Supercritical Fluid Chromatography) system is used for the extraction and purification of compounds. It utilizes supercritical CO₂ to efficiently separate compounds, especially hydrophobic and chiral (optical isomer) compounds. This system is suitable for pharmaceuticals, food, cosmetics, chemicals, and many other industries.

This supercritical drying system is designed to efficiently remove solvents, ensuring complete drying without altering the structure of the material. With automatic temperature and pressure control, the system operates with stability and precision. All surfaces in contact with food are made of stainless steel, preventing microbial attachment. Additionally, the system supports CO₂ recycling, optimizing performance and energy efficiency.

This supercritical extraction system is specially designed for research on supercritical water and CO₂, enabling efficient extraction of natural compounds. With a CO₂ recycling system, PID temperature control, and automatic pressure regulation, it ensures precise and stable extraction. All surfaces in contact with food are made of stainless steel, preventing microbial attachment. Additionally, users can flexibly load samples and add trapping solutions such as water or alcohol to optimize performance.

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