The structure of a Stainless Steel Thin Film Evaporator mainly includes feeding bottles, evaporators, condensers, collection bottles, control systems, pumps, and pipelines. These parts work together to achieve evaporation and separation of the liquid sample through a cycle of heating and cooling.
Workflow Principles
Feed tank: used to load liquid samples to be processed. The feeding bottle usually has sealing performance to prevent sample leakage.
Evaporator: It is the core component of a Stainless Steel Thin Film Evaporator used to heat and evaporate liquid samples.
Evaporators are usually made of stainless steel material and have good corrosion resistance and thermal conductivity. There are usually spiral or threaded heating tubes inside the evaporator, which transfer heat to the liquid sample and cause it to evaporate.
Condenser: Used to cool steam and condense it into a liquid. The condenser is usually made of stainless steel material and has good thermal conductivity. There is usually cooling water or coolant flow inside the condenser, which cools the steam into a liquid through the heat transfer effect of the cooling water or coolant.
Collection tank: used to collect evaporated products. Collection bottles typically have sealing properties to prevent product leakage.
Control system: used to control parameters such as heating power, cooling temperature, and evaporation rate of the thin film evaporator. Control systems typically include temperature controllers, pressure controllers, and liquid level controllers.
Pump and pipeline: used to provide the vacuum environment required for evaporation. Pumps and pipelines are usually made of stainless steel material, which has good corrosion resistance and sealing performance.
Products Application
The short-path evaporator utilizes a low-pressure, low-temperature environment to minimize heat exposure and reduce the residence time of the essential oil during the distillation process. This helps to preserve the delicate molecular structure of the volatile components, resulting in higher purity and better quality essential oils.
The short path evaporator allows for efficient separation and concentration of the major components in the aromatic oils. It can effectively remove unwanted impurities, such as odors and colored compounds, resulting in a cleaner and more desirable final product. The technology's ability to maintain the integrity of the essential oil's molecular structure leads to enhanced fragrance, therapeutic properties, and overall stability.
By employing short-path evaporator technology, essential oil producers can meet the increasing demand for high-quality natural essential oils in industries such as daily chemicals, light industry, pharmaceuticals, and foreign trade. This technology offers a reliable and efficient method to purify and concentrate essential oils while preserving their inherent qualities.
Products Details
Magnetic sealing technology often allows for easier cleaning and sterilization of the sealing components, further contributing to maintaining a clean and contamination-free environment.
The structure of a Stainless Steel Thin Film Evaporator mainly includes feeding bottles, evaporators, condensers, collection bottles, control systems, pumps, and pipelines. These parts work together to achieve evaporation and separation of the liquid sample through a cycle of heating and cooling.
Workflow Principles
Feed tank: used to load liquid samples to be processed. The feeding bottle usually has sealing performance to prevent sample leakage.
Evaporator: It is the core component of a Stainless Steel Thin Film Evaporator used to heat and evaporate liquid samples.
Evaporators are usually made of stainless steel material and have good corrosion resistance and thermal conductivity. There are usually spiral or threaded heating tubes inside the evaporator, which transfer heat to the liquid sample and cause it to evaporate.
Condenser: Used to cool steam and condense it into a liquid. The condenser is usually made of stainless steel material and has good thermal conductivity. There is usually cooling water or coolant flow inside the condenser, which cools the steam into a liquid through the heat transfer effect of the cooling water or coolant.
Collection tank: used to collect evaporated products. Collection bottles typically have sealing properties to prevent product leakage.
Control system: used to control parameters such as heating power, cooling temperature, and evaporation rate of the thin film evaporator. Control systems typically include temperature controllers, pressure controllers, and liquid level controllers.
Pump and pipeline: used to provide the vacuum environment required for evaporation. Pumps and pipelines are usually made of stainless steel material, which has good corrosion resistance and sealing performance.
Products Application
The short-path evaporator utilizes a low-pressure, low-temperature environment to minimize heat exposure and reduce the residence time of the essential oil during the distillation process. This helps to preserve the delicate molecular structure of the volatile components, resulting in higher purity and better quality essential oils.
The short path evaporator allows for efficient separation and concentration of the major components in the aromatic oils. It can effectively remove unwanted impurities, such as odors and colored compounds, resulting in a cleaner and more desirable final product. The technology's ability to maintain the integrity of the essential oil's molecular structure leads to enhanced fragrance, therapeutic properties, and overall stability.
By employing short-path evaporator technology, essential oil producers can meet the increasing demand for high-quality natural essential oils in industries such as daily chemicals, light industry, pharmaceuticals, and foreign trade. This technology offers a reliable and efficient method to purify and concentrate essential oils while preserving their inherent qualities.
Products Details
Magnetic sealing technology often allows for easier cleaning and sterilization of the sealing components, further contributing to maintaining a clean and contamination-free environment.