Described are liquid compositions that contain a desired (e.g., extracted) plant material such as cannabinoid, terpene, terpenoid, or the like, contained, e.g., dissolved, suspended, or emulsified, in the liquid, which contains surfactant; methods of preparing these types of liquid compositions; and methods of processing this type of liquid composition to collect, isolate, concentrate, or purify a desired target material contained in the liquid composition.

The present invention relates to a process for the preparation of perfume concrete and absolute which employs bringing particular solid natural material into contact with a first system of solvents comprising at least one “green” heterocyclic solvent.

Another subject-matter of the invention is the perfume concrete and the perfume absolute obtained by the preparation process, a composition comprising the concrete and/or the absolute, and the use of the “green” heterocyclic solvent to extract the concrete and/or the absolute without lamenting an ether odour.

An organic based extraction system is described. Embodiments of the extraction system include a first vessel, a second vessel, a third vessel, a pump, and a plurality of sight lenses. Generally, each of the vessels and the pump can be set up to form a closed loop system adapted to recover and reuse a solvent. A fluid flow from the first vessel to the second vessel, from the second vessel to the third vessel, from the third vessel to the pump, and from the pump back to the first vessel can be implemented. Typically, an extract from organic matter can be recovered in the third vessel. In one embodiment, the plurality of sight lenses can be implemented to determine if more solvent is needed and to check the extract while an extraction process is running.

Suggested is a method for the extraction of fragrances from natural starting material consisting of the following steps: (a) providing a sample of the natural starting material in a pressure proof sample container; (b) bringing in the sample in contact with liquefied petroleum gas of propane and/or butane gas, preferably; (c) extracting the fragrances from the natural starting material provided in step (b); (d) venting of the pressure proof sample container, while the liquefied petroleum gas is evaporated and the fragrances is maintained as residue in the container; and optionally (e) dissolving the fragrances in a suitable solvent.

The invention is directed to a process for the extraction of one or more oil-soluble components from plant material, to an oil comprising one or more oil-soluble components from plant material, preferably obtainable by the process of the invention, a physiologically acceptable product comprising the oil, and to the use of plant material.

The process of the invention comprises: a) providing oil and plant material; b) heating the oil to a temperature of 10-80° C., preferably 50-80° C.; c) contacting the oil with the plant material while the oil and plant material are in motion relative to each other, thereby extracting one or more oil-soluble components from said plant material; d) replacing plant material with new plant material during the extraction process, and e) collecting said oil when the concentration of the one or more oil-soluble components has reached a desired level.

Embodiments may include methods and systems for purifying a product and recovering a solvent. In a first stage, a raw feed comprising an initial solvent fraction and an initial product fraction may be heated using a first heat exchanger, and an intermediate vapor fraction of the initial solvent fraction may be vaporized using a first vapor liquid separator to yield an intermediate product comprising intermediate solvent and intermediate product fractions. The intermediate vapor fraction may be condensed to a first solvent condensate using a first condenser. In a second stage, the intermediate product may be heated using a second heat exchanger, and a final vapor fraction of the intermediate solvent fraction may be vaporized using a second vapor liquid separator to yield a purified product comprising final solvent and final product fractions. The final vapor fraction may be condensed to a second solvent condensate using a second condenser.

A powdered, water-soluble Full Spectrum Hemp Oil is formed using organic materials and natural products to form a non-GMO, fast acting, whole plant hemp extract without harsh chemicals such as hexane. The Full Spectrum Hemp Oil may be extracted using CO2 concurrent gas extraction to avoid use of chemical additives.

The present invention relates to a method for extracting, separating and purifying compounds of interest obtained from essential oils and plant extracts which is continuously held.

An extraction system for obtaining oils and other constituents from raw botanical materials includes an array of separation chambers for fractionalized recovery of dissolved constituents in a supercritical solvent fluid. Collection of the dissolved constituents is facilitated with a pressure-stable collection vessel that is adaptable to sequentially collect precipitate from the array of separation chambers.

In a system for performing a multi-step process for selectively purifying various pharmacologically-relevant components of a source plant such as cannabis, an initial step of the process provides a low-temperature, robust process for dehydrating and decarboxylating the starting product—fresh raw cannabis—by means of a vacuum-assisted microwave distillation process. An important by-product of the dehydration/decarboxylation is a terpene-rich distillate. By doing the terpene capture under vacuum, distillation temperature may be kept low. The low distillation temperature maximizes yields of thermally-sensitive components such as terpenes and cannabinoids.