When extracting a pure botanical oil from hemp, a solvent is passed through the plant material, pulling the compound rich oil from the plant. The solvent is then removed in a purging process, leaving behind a concentrated oil. When extracting from hemp, the oil can next be formulated into finished products or further refined and purified into a number of forms, including a golden dewaxed concentrate or crystallized CBD isolate.
That being said, though, CBD isolate still has a very relevant place in the cannabis market. A lot of people, for instance, use it to concoct their own personal daily CBD remedies – they mix the pure powder with oil, or they add it into their coffee, or they make edibles out of it. Since it comes in an easily-measurable powder, it’s a great option for those individuals who are trying to calculate exact personal dosages of CBD medication by the milligram.
There are a number of potential solvents that can be used to extract CBD oil from the hemp plant. Some companies choose to use dangerous chemical solvents in their extraction process. However, this opens the end user to residual contamination from any solvent that is left unpurged from the oil. To extract our CBD oil from our hemp crops, we use supercritical CO2.
There has been a fair amount of confusion surrounding the legality of CBD oil. But while the vast majority of cannabinoids are controlled substances under the Misuse of Drugs Act, rest assured that CBD oil is legal across the UK for medicinal purposes, provided it has been derived from an industrial hemp strain that is EU-approved. These strains contain very little to no THC (the psychoactive cannabinoid).
A study published by David Cheng, Postdoctoral Scientist, Neuroscience Research, University of New South Wales, NSW, Australia, says that CBD has a potential as a preventive measure against symptoms of Alzheimer’s. This presents yet another exciting development for medical researchers, given the persistent challenges to finding effective solutions for this condition.
Lab techs use state of the art equipment to create phase changes in carbon dioxide by utilizing temperature and pressure. The carbon dioxide is cooled and compressed to upwards of 10,000 psi – by comparison your car tire is pressurized to about 300 psi. When compressed to these extremes, CO2 becomes ‘supercritical’, which simply means that it converts to liquid when placed under extreme pressure.