The application scenarios of short-path molecular distillation technology are very extensive, covering the following aspects mainly:
In the field of fine chemicals, short-path molecular distillation technology can be used for the separation of high-purity organic compounds, high-purity metal-organic compounds, etc. For instance, in the production of high-purity chemical raw materials, catalysts, surfactants, and pesticide intermediates, short-path molecular distillation technology can be employed to enhance product purity and yield.
In the food industry, short-path molecular distillation technology can be used to separate aromatic components and pigments from food and spices. For instance, in the oil industry, this technology can be employed to produce high-quality oils and fatty acids; in the winemaking industry, short-path molecular distillation can be utilized to extract and purify the aromatic components in wine, enhancing its quality and taste.
In the field of environmental protection, short-path molecular distillation technology can be used to process waste oil, waste lubricating oil, waste solvents, and other waste products. By separating the useful components through distillation, it achieves the recycling and utilization of resources. Additionally, in the field of environmental protection, short-path molecular distillation technology can also be employed to treat organic pollutants in industrial wastewater. By separating the harmful substances from the wastewater through distillation, it aims to purify the water quality.
In summary, short-path molecular distillation technology is widely applied in various fields, primarily used for the separation and purification of high-purity substances. It enhances product quality and yield, facilitates resource recycling, and contributes to environmental protection.
