Distillation is a technique that has been used for hundreds of years, but it is now recognized as the ultimate step in producing some of the cleanest hemp goods. Extracting, isolating, separating, and distilling pure cannabinoids are among the top cannabis production trends. In recent years, equipment and procedures for producing these pure goods have advanced nearly dramatically. The distillation procedure is an important step in manufacturing some of the most coveted goods in the business, from potent HHC distillate vape cartridges to HHC tinctures. Because HHC distillate is getting more popular, many HHC users may be curious about how it is made, so keep reading to find out exactly how it is made in easy words.
What is HHC?Hexahydrocannabinol (short name HHC), a psychotropic cannabinoid, is found in trace amounts in hemp and cannabis plants. Despite being discovered in the 1940s, the cannabinoid has only lately gained recognition as a psychotropic and therapeutically significant chemical component. HHC is less known than other cannabinoids. However, it has recently gained prominence due to new discoveries that it has similar but less severe effects than THC. Plants contain trace amounts of HHC, which are detectable. As a consequence, many of its goods have synthetic components. In this method, either found naturally, THC was hydrogenated to form THC saturated with hydrogen atoms. Because this product lacks a double bond, it is less prone to oxidation. HHC has a longer shelf life than THC because it is more difficult to oxidize, allowing its goods to last longer.
What is HHC Distillate?HHC Distillate is a highly processed extract that has been purified by the distillation procedure. HHC distillate is a golden, viscous oil that contains up to 90% Hexahydrocannabinol, with the remainder consisting of minor cannabinoids, terpenes, and various plant oils and extracts, including THC (usually less than 0.3 percent). HHC Distillate is regarded as one of the finest and cleanest extracts in the industry, second only to HHC isolate in purity. According to the scientific description, distillation is the act of purifying a substance using a combination of heating and cooling processes. The distillate is the final product of a distillation procedure.
How Is HHC Distillate Made?
HHC distillate is created by heating a solution to a specific temperature in order to vaporize a particular compound within the solution without destroying it, then re-condensing the vaporized compound back into a liquid, effectively separating it from the rest of the undesired compounds in the initial solution. The procedure of purifying water is a simple example of distillation. Heating water to 212°F vaporizes the H₂O molecule, releasing any unwanted chemicals. When this water vapor is rapidly cooled, it condenses into distilled, purified water. The same logic that applies to water distillation also applies to HHC distillate. One of the most frequent devices used in the production of HHC distillate is a bench-top short-path distillation unit. A boiling flask, a condensing head, and a collection flask are the three major elements of a short-path distillation apparatus. The cannabis crude oil is cooked at various temperatures in a boiling flask. The vapor is then condensed (turned back into a liquid) by the condensing head, and the liquid residue is collected in the collection flask, isolating the HHC and THC components. Then scientists will gather fractions called main, tails, or heads depending on the temperature attained in the boiling flask. The main fraction, which is usually pale yellow, contains HHC and several minor compounds. A wiped film distillation equipment is more typical in the laboratory of mid to large-scale processors. The wiped film is similar to the short path in that the chemical is the same, but the technique and equipment vary slightly. The most significant differences between the short path and wiped film distillation are the ability to operate the unit in a continuous mode and the employment of rolling wipers in the heating step to form a thin film around the evaporator flask.