Level 1: 5 L x 2
Supercritical Fluid Extraction System
Our Level 1 SCFE Systems are ideal for small scale producers or research and development labs with pilot extraction requirements.
View ProductCO2 extraction is a state-of-the-art method for extracting cannabinoids and terpenes from cannabis plants. This process employs supercritical carbon dioxide, which behaves both as a gas and a liquid. By manipulating pressure and temperature, CO2 becomes supercritical, allowing it to efficiently dissolve the essential compounds from the plant material.
Advantages:
Applications : CO2 extraction is essential for creating high-quality cannabis oils, concentrates, and extracts. It is particularly valued for producing full-spectrum extracts that maintain the natural balance of cannabinoids and terpenes, which is crucial for therapeutic and recreational products.
Ethanol extraction is a widely utilized method in the cannabis industry due to its efficiency and effectiveness. Ethanol acts as a solvent to dissolve cannabinoids and terpenes from the cannabis plant. Once the extraction process is complete, the ethanol is evaporated, leaving behind a concentrated cannabis extract.
Advantages:
Applications : Ethanol extraction is used to create cannabis tinctures, edibles, and vape cartridges. Its ability to extract a wide range of compounds makes it suitable for products that require a broad cannabinoid profile.
Hydrocarbon extraction involves using hydrocarbons like butane or propane to extract cannabinoids from cannabis. The process entails passing the hydrocarbon through the plant material, where it dissolves the desired compounds. After extraction, the solvent is purged, leaving behind a potent concentrate.
Advantages:
Applications : Hydrocarbon extraction is used to produce various cannabis concentrates, including shatter, wax, and live resin. Its ability to retain terpenes and produce high-potency extracts makes it a popular choice for premium products.
Cold ethanol extraction is a variation of ethanol extraction that involves chilling the ethanol before use. This technique helps to minimize the extraction of unwanted waxes and lipids, resulting in a cleaner and purer extract.
Advantages:
Applications : Cold ethanol extraction is ideal for producing high-quality cannabis concentrates where purity and clarity are important. It is commonly used in the production of refined oils and concentrates for both medicinal and recreational use.
Solventless extraction methods do not use any chemical solvents, relying instead on physical processes to separate cannabinoids and terpenes from the plant material. Techniques such as ice water extraction and rosin pressing are examples of solventless methods.
Advantages:
Applications : Solventless extraction is used to create products like hash and rosin. It is valued for its ability to produce pure extracts while maintaining the integrity of the plant's natural compounds.
Rotary evaporators are essential for the evaporation step in many extraction processes, particularly ethanol extraction. These devices use rotary motion to create a thin film of liquid, which is then evaporated under reduced pressure. This allows for the efficient removal of solvents from the extract.
Advantages:
Applications : Rotary evaporators are used in conjunction with extraction systems to remove solvents from the final extract. They are essential for producing high-quality concentrates by ensuring efficient and controlled solvent evaporation.
Short path distillation is a method used to refine cannabis extracts by separating cannabinoids from impurities and unwanted compounds. This technique involves heating the extract and using a short path to condense the vapor back into a liquid. It allows for precise separation and purification of cannabinoids.
Advantages:
Applications : Short path distillation is commonly used to refine cannabis extracts for medical and recreational products. It is particularly useful for producing high-potency concentrates and isolates.
When selecting cannabis extraction equipment, it's crucial to consider various specifications and features to ensure the system meets your production needs. Key factors to evaluate include:
Proper maintenance is essential for the longevity and optimal performance of cannabis extraction equipment. Regular cleaning, calibration, and inspection help prevent issues and ensure consistent results. Additionally, reliable support from the equipment manufacturer or supplier is crucial for addressing any technical issues or concerns that may arise.
By understanding the various types of cannabis extraction equipment and their specific applications, businesses can make informed decisions and invest in the right systems to enhance their production processes. Whether you're focusing on CO2 extraction, ethanol extraction, hydrocarbon extraction, or solventless methods, each type of equipment offers unique benefits and capabilities to meet diverse extraction needs.
Choosing the right cannabis extraction equipment is crucial for improving production efficiency and product quality. Whether you need CO2, ethanol, hydrocarbon, or solventless systems, each offers unique benefits to suit your extraction needs.
Ready to optimize your extraction process? Contact us today to learn more about our advanced extraction systems and how they can benefit your business!
CO2 extraction uses supercritical carbon dioxide to extract cannabinoids and terpenes from cannabis plants. It's highly precise, solvent-free, and allows for customizable extraction, delivering pure, high-quality extracts.
Ethanol extraction dissolves cannabinoids and terpenes from the plant material using ethanol as a solvent. It’s efficient for processing large quantities, cost-effective, and widely used for full-spectrum cannabis extracts.
Hydrocarbon extraction uses butane or propane to create high-quality, potent concentrates such as shatter and live resin. It preserves the flavor and terpenes, making it popular for premium cannabis products.
Cold ethanol extraction involves chilling the ethanol before extraction to avoid unwanted waxes and lipids, resulting in a cleaner and purer final extract.
Solventless extraction systems use physical methods, like ice water extraction or rosin pressing, to separate cannabinoids without using chemical solvents. They are valued for producing pure, residue-free extracts.
Rotary evaporators are used in conjunction with extraction systems to remove solvents from the final product, ensuring efficient and gentle evaporation while maintaining the quality of the extract.
Short path distillation refines cannabis extracts by separating cannabinoids from impurities, resulting in high-purity concentrates ideal for medicinal and high-potency products.
Key factors include the system's capacity, efficiency, ease of use, compliance with safety standards, and the level of support and maintenance required.
CO2 extraction systems are typically used to produce full-spectrum cannabis oils, concentrates, and therapeutic products that preserve the natural balance of cannabinoids and terpenes.
Regular maintenance ensures optimal performance, prolongs equipment lifespan, and helps prevent downtime or quality issues during production.