YUAN-CM-Q
YUAN
Simulated moving bed chromatography separation system:
Compared to traditional batch-batch chromatography, the simulated moving bed process allows higher yields of purified material while reducing the amount of eluents and packing materials used.
Traditional chromatographic separation has only one chromatographic column, only a small part of the column participates in the separation, and the dominant part does not contribute to the productivity. In simulating a moving bed, the entire column bed is efficiently used. A quiescent state is formed when all bulk currents are optimized. In other words, the currents of the purified extract and raffinate no longer changed at medium concentrations. In this case, the system can run continuously.
In the oil refining industry, because the distillation method cannot effectively separate xylene isomers, it was originally used to simulate moving bed separation. Today, this technology is established and used in the sugar industry, chiral separations and the production of pharmaceutical raw materials.
Simulated moving bed chromatography is a continuous chromatography technique that separates binary or pseudobinary mixtures into pure substances or fractions. The process results in higher yields of purified material while using less eluent and packing material than traditional batch chromatography.
Simulated moving bed chromatography separation system:
Compared to traditional batch-batch chromatography, the simulated moving bed process allows higher yields of purified material while reducing the amount of eluents and packing materials used.
Traditional chromatographic separation has only one chromatographic column, only a small part of the column participates in the separation, and the dominant part does not contribute to the productivity. In simulating a moving bed, the entire column bed is efficiently used. A quiescent state is formed when all bulk currents are optimized. In other words, the currents of the purified extract and raffinate no longer changed at medium concentrations. In this case, the system can run continuously.
In the oil refining industry, because the distillation method cannot effectively separate xylene isomers, it was originally used to simulate moving bed separation. Today, this technology is established and used in the sugar industry, chiral separations and the production of pharmaceutical raw materials.
Simulated moving bed chromatography is a continuous chromatography technique that separates binary or pseudobinary mixtures into pure substances or fractions. The process results in higher yields of purified material while using less eluent and packing material than traditional batch chromatography.
