10L Short Path Molecular Distillation
What is 10L Short Path Molecular Distillation?
Short path distillation is a specialized technique that facilitates the separation of different compounds based on their boiling points. The 10L capacity refers to the volume the system can accommodate, allowing for efficient processing of moderate quantities. By employing short path molecular distillation, high purity distillates can be obtained.
Applications of 10L Short Path Molecular Distillation
The versatility of 10L Short Path Molecular Distillation makes it a vital tool in various industries. In the pharmaceutical sector, it aids in the purification of active pharmaceutical ingredients (APIs) and the removal of impurities. Additionally, it finds utility in essential oil extraction, enabling the production of concentrated oils with enhanced purity and aroma.
In the cannabis industry, 10L Short Path Molecular Distillation is employed for the extraction of cannabinoids and terpenes, producing extracts of exceptional quality for medicinal and recreational purposes. Moreover, the chemical industry utilizes this technique to refine chemicals, separate mixtures, and obtain high-quality intermediates.
Quick Details
Capacity | 10L |
Key Selling Points: | Easy to Operate |
Rotating Speed: | 450Rpm |
Machine type: | Short Path Distiller |
Power Source: | Electric |
Glass Material: | High Borosilicate Glass 3.3 |
Process: | Wiped Film |
After Warranty Service: | Online support |
Product Attribute
Part Description | Specification |
Round Bottom Flask For Evaporation | 10L, 3-neck, Hand Blown, 34/45 |
Short Path Distillation Port | Vacuum Jacketed, 34/45 |
Screw Thermometer Inlet Adapter | 24/40 |
Thermometer Inlet Adapter | 14/20 |
Distillation Cow Receiver 2 | 1-to-1, 24/40 |
Round Bottom Flask for receiving | 2000ml, 1-neck, Hand Blown, 34/35 |
Glass Funnel | 4" opening, 24/40 |
Keck Clamp 1 | 24/40, Stainless Steel |
Keck Clamp 2 | 24/40, Plastic |
Keck Clamp 1 | 34/45, Stainless Steel |
Hexagonal Glass Bottle Stopper | 14/20 |
Hexagonal Glass Bottle Stopper | 24/40 |
Cork Ring Stand for Flask 2 | 1pc 110mm,1pc 160mm |
Silecone Tubing | 8x14mm |
Stainless Steel Lab Jak | 1pc 15x15cm,1pc 20x20cm |
Glass Termometer | 300 Degree |
Sealing Gasket For Screw Thermometer Inlet Adapter | 24/40 |
Clamp Holder | |
Lab Support Stand | |
3-prong Condenser Clamp | |
Glass T Adaper | 3/8'' |
Vacuum Grease | |
1/2'' Fiberglass Insulating Rope | |
Glass Cold Trap | T-20 |
Desktop Precise Heater/Chiller | 15L, -5 to 95 Degree Centigrade |
Rotary Vane Oil Pump | 8.4CFM(4L/S), 2-stage, 220 V |
The Working Principle of 10L Short Path Molecular Distillation
The working principle of 10L Short Path Molecular Distillation involves several key steps. Firstly, the feed material is introduced into an evaporator, where it is heated. As the temperature rises, the volatile components evaporate, separating from the non-volatile components. The vapors then pass through a condenser, where they are cooled and condensed back into liquid form.
During this process, the different components with varying boiling points condense at different temperatures, allowing for their separation. The condensed distillate is collected in a separate flask while the non-condensable gases and residues are removed through a vacuum system. This molecular distillation technique ensures higher purity due to the short path traveled by the vapors, minimizing thermal degradation.
Key Components of 10L Short Path Molecular Distillation
The 10L Short Path Molecular Distillation system consists of several essential components. The evaporator is responsible for heating the feed material and facilitating vaporization. The condenser plays a crucial role in cooling the vapors, causing condensation. A feed flask holds the initial material, while a collection flask collects the purified distillate. A vacuum system maintains the necessary pressure conditions for optimal molecular distillation.
Advantages of Using 10L Short Path Molecular Distillation
Utilizing a 10L Short Path Molecular Distillation system offers various advantages. The most significant benefit is the production of high purity distillate, ensuring the removal of impurities and achieving exceptional quality. The separation process is highly efficient, thanks to the short path traveled, resulting in increased throughput and productivity. Moreover, thermal degradation is minimized, preserving the integrity of sensitive compounds.
10L Short Path Molecular Distillation systems are scalable and flexible, allowing users to process different quantities of material as needed. Additionally, these systems are designed for ease of operation, enabling efficient control and monitoring during the distillation process.
Tips for Optimal Performance of 10L Short Path Molecular Distillation
To maximize the performance of a 10L Short Path Molecular Distillation system, several tips should be considered. Proper cleaning and maintenance of the system are crucial for optimal efficiency and prolonging the lifespan of components. Choosing the right parameters, such as temperature and pressure, based on the specific material being distilled is essential.
Continuous monitoring of temperature and vacuum levels helps ensure precise control throughout the distillation process. Quality control measures, such as analyzing the distillate for purity and consistency, contribute to maintaining high standards.
How to Choose the Right 10L Short Path Molecular Distillation System
Choosing the appropriate 10L Short Path Molecular Distillation system depends on specific requirements and applications. Considerations include the range of substances to be distilled, temperature requirements, and the desired purity levels of the distillate.
The quality and durability of the components are paramount as they directly impact the system's performance and longevity. Scalability and expandability options may be important factors for those who foresee potential growth or changes in their operations.
Safety Precautions When Using 10L Short Path Molecular Distillation
Ensuring safety when operating a 10L Short Path Molecular Distillation system should not be overlooked. Proper handling of chemicals, including wearing appropriate personal protective equipment, is crucial to avoid accidents and exposure to hazardous substances. Operating the system in a well-ventilated area reduces the risk of inhalation and ensures the dispersion of any potentially harmful vapors. Familiarity with emergency shutdown procedures and quick response protocols is essential to handle unforeseen situations effectively.
10L Short Path Molecular Distillation is a powerful technique utilized in various industries for the separation and purification of substances. Its ability to produce high purity distillates with minimal thermal degradation makes it a preferred choice for applications in the pharmaceutical, essential oil, cannabis, and chemical industries. By following the recommended tips and adhering to safety precautions, users can harness the full potential of a 10L Short Path Molecular Distillation system.
FAQs
1: Is 10L Short Path Molecular Distillation suitable for large-scale industrial applications?
While 10L refers to the system's capacity, Short Path Molecular Distillation can be scaled up for larger industrial applications, enabling higher throughput and productivity.
2: Can different types of feed materials be processed using a 10L Short Path Molecular Distillation system?
Yes, the versatility of this system allows processing a wide range of materials, including pharmaceutical compounds, essential oils, cannabis extracts, and various chemicals.
3: What is the advantage of short path molecular distillation compared to other distillation techniques?
Short path molecular distillation offers higher purity distillates with minimal thermal degradation due to the reduced path traveled by the vapors, making it ideal for sensitive compounds.
4: How often should a 10L Short Path Molecular Distillation system be cleaned?
A4: Regular cleaning is recommended after each distillation run to prevent cross-contamination and optimize system performance. The frequency may vary based on the material being distilled.
5: Can a 10L Short Path Molecular Distillation system be automated?
Yes, many 10L Short Path Molecular Distillation systems offer automation options and advanced control features for enhanced precision and efficiency.