Skip to Content

How long should I vacuum purge my BHO?

When it comes to properly vacuuming and purging BHO (Butane Honey Oil), the recommended time depends on several factors, such as the temperature and pressure of the environment, the type of extract, the purity of the wax, and the size and amount of material being processed.

With that being said, the general minimum recommended time to vacuum purge BHO is 24 hours. However, for larger batches and for higher-grade extractions, it is often recommended to vacuum purge for up to 72 hours.

Additionally, temperatures between 45-55°F (7-12°C) and a vacuum of 29in/Hg are often recommended as ideal conditions for purging. Whatever the condition of your vacuuming and purging process, it is always important to be attentive and check on the consistency and color of the BHO regularly while purging, as the process should be adjusted if need be to achieve the optimal product.

What does vacuum purging do to BHO?

Vacuum purging is a process used to remove solvents from butane hash oil (BHO) that is used in the preparation of cannabis concentrates. During the vacuum purging process, the BHO is placed in a vacuum chamber and heated.

As the air pressure in the chamber is reduced, the temperature of the BHO is decreased which helps evaporate the solvents more quickly. After the vacuum chamber is sealed, the system is heated while being kept under a vacuum, which pulls the gas out of the BHO and enhances the purging of residual solvent.

This process helps to ensure that all the residual components present, like flavonoids, terpenes, and other compounds, remain intact in the BHO. As these components provide the desirable flavor and effects of concentrates, it is important for them to remain intact in the BHO after the purging.

How long do you purge live resin?

The recommended storage life of your live resin ultimately depends on the storage conditions and other factors, like the expiration date stated by the manufacturer. Generally, storing live resin in a cool, dark, and dry place will help to maintain the quality of the product for longer.

If not stored properly, live resin can degrade after a period of time and become unusable. As a rule of thumb, it is recommended to use live resin within a maximum of one year. It is always a good idea to check the expiration date before using any product to ensure you are getting the highest quality material possible.

What temp does BHO evaporate?

The temperature at which BHO (Butane Hash Oil) evaporates ultimately depends on the product’s specific characteristics, including its individual terpene content and cannabinoid profiles. As a general guideline, most BHO products will begin to evaporate at between 80 and 120 degrees Celsius (or 176 to 248 degrees F).

However, it is important to note that different terpene profiles can both lower and raise that evaporation temperature. For example, if the BHO in question has a higher ratio of linalool, as some sativa-dominant varieties do, then the recommended evaporation point may be lower than the previously mentioned range.

Ultimately, the temperature at which BHO evaporates should be determined by the specific terpene and cannabinoid profiles and their unique combination of properties.

What is the most common method of purging?

The most common method of purging is called chemical purging, which involves the use of chemicals such as caustic soda or hydrochloric acid to remove contaminants, dirt, grease, and other materials from pipes, ducts, tanks, and other surfaces.

This process typically involves a chemical solution being sent through the system or applied to the surface in order to effectively release contaminants and then rinsed away with cleaning solvents or hot and cold water.

Chemical purging can be used on a variety of materials, including pipes, tanks, and ducts that are made from steel, aluminum, plastic, and other materials. It is also commonly used on boilers and other systems that contain fluids that can be corrosive.

What temperature do you purge shatter at?

The ideal temperature to purge shatter is between 90-120° F. It is important to keep the temperature consistent throughout the entire purging process in order to create a high quality, potent product.

If you increase the temperature too high, you will risk damaging the cannabinoids and terpenes in the shatter, resulting in a lower quality product. If the temperature is too low, you may not be able to purge out the butane completely.

Shatter purging should take between 2-6 hours and the temperature should remain consistent throughout the process. By monitoring the temperature regularly and adjusting accordingly, you should be able to successfully purge your shatter and create a high quality product.

What temp destroys terpenes?

Terpenes, which are fragrant compounds found in cannabis, are volatile and can easily be lost or degraded if exposed to heat. In particular, it is generally accepted that terpenes start to degrade and be destroyed at temperatures around 300°F (148°C).

This temperature can be reached during the decarboxylation process that activates the cannabinoids in cannabis and is high enough to cause destruction of not just terpenes but also other compounds found in cannabis.

While decarboxylation and vaporization are two of the most popular ways to consume cannabis, both of these methods use temperatures that are high enough to begin destroying terpenes. As a result, those looking to preserve terpenes while consuming cannabis may opt to use a lower temperature, although this may result in some of the cannabinoids being less activated as a result of the decreased heat.

People can also opt to consume cannabis with other methods that do not involve heat, such as tinctures and edibles, although it should be noted that the cannabinoids in these products have already gone through a decarboxylation process.

What is the average yield for BHO?

The average yield of BHO (also known as butane hash oil) varies greatly depending on the extraction process used, and can range anywhere from 15-60% of the original weight of the cannabis material used.

This can be a very wide range and will depend on the type of extractor being used, as well as the quality and quality of the cannabis material being used. Cold temperatures tend to yield a higher return, while higher temperatures will often lead to lower returns.

Additionally, the size and shape of the material being extracted can also play a role in the final yield, so it is important to pay attention to the particulars of the extraction method used to get the best possible yield.

Can BHO be full spectrum?

Yes, BHO (butane hash oil) can be full spectrum. Full spectrum BHO is made by isolating cannabinoids and terpenes from the plant material by Butane extraction. This extraction process removes plant waxes, chlorophyll, and other plant matter from the plant material, leaving behind the desirable cannabinoids, terpenes, and flavonoids.

This creates a product that still contains all of the original compounds that were present in the plant material, making it full spectrum. There are even blends of BHO that are designed to create a full spectrum extract with a certain percentage of THC and CBD.

What is the purpose of purging operation?

The purpose of purging operation is to remove unwanted materials and products that have been accumulated during production. It is a way to clean up the facility, machines and products during the manufacturing process as well as to eliminate contaminants that can reduce the quality of the final product.

Purging operation can be used to remove dust and residues that may have settled on equipment and surfaces during production, as well as to eliminate any leftover materials that are no longer needed. It can also be used to ensure the conditions of the facility and machines that may have had an impact on the quality of the products being produced.

Additionally, purging can be used to remove hazardous materials or residues that could otherwise pose a health or safety risk, as well as to eliminate any hazardous waste materials that need to be disposed of in a safe, legal manner.

Why is my BHO crackling?

Crackling in your BHO (butane honey oil) is typically caused by moisture in the air or in the butane itself. Moisture in butane can occur from overly humid conditions, or from the butane itself being over-saturated with moisture.

When butane is over-saturated with moisture, as it vaporizes, there is a buildup of air pressure, which then causes the crackling sound. The only way to fix this is to clean the butane, and make sure that it is coming from a fresh, dry, and uncontaminated source.

To clean the butane, you can either pass it through a dry form of treatment (i. e. , alumina beads, or a specially-designed hydrophobic filter), or boil it by simmering it at a low temperature (i. e.

, at 100°C). You should also try to keep the humidity level within your workspace or extraction area as low as possible, to reduce the chance of moisture build-up in the butane. Additionally, make sure that you are compressing the butane with a compressor that has an anhydrous dryer installed, to reduce the amount of moisture that is in the butane stream.

How long does it take for butane to evaporate from BHO?

The exact amount of time it takes for butane to evaporate from BHO (butane hash oil) will vary depending on numerous factors, such as the thickness or viscosity of the oil, the amount of airflow and air movement, room temperature and humidity, the amount of evaporation surface area, and the size and shape of the container.

Generally, however, it takes around 48-72 hours for the butane to evaporate completely. This process can be sped up by using a vacuum oven to evacuate the oxygen from inside and then increase the temperature.

This ensures complete evaporation of the butane from the oil and speeds up the process.

What does purging a pump mean?

Purging a pump refers to the process of removing air from the pump and associated piping in order to ensure correct operating conditions. It is an important part of the installation and operation process of many types of pumps, as air can cause cavitation, vibration, noise and performance issues for the system.

Purging a pump can be done by simply filling the system with liquid and then allowing the air to escape by opening outlets on the pump and the system. In certain special cases, a venturi injector or an external vacuum device may be used to better remove the air.

Once the air has been purged from the system, the pump should be able to run reliably and efficiently.

What is an advantage of pressure purging over vacuum purging?

The main advantage of pressure purging over vacuum purging is that it accelerates the purging process, making it more efficient and less time-consuming. The pressured atmosphere aids in forcing the gasses and impurities out of the equipment more quickly, making it a faster and more reliable method.

Furthermore, pressure purging also offers better control while eliminating the possibility that air can be drawn back into the system, which can cause fluctuations in pressure, temperature, and impurity levels.

It is also valuable in terms of production line maintenance, as it allows large-scale systems to be easily purged with minimal downtime. Ultimately, pressure purging is a more reliable, consistent, and cost-effective method of purging products or equipment.

Why nitrogen is used for purging?

Nitrogen is an ideal gas for purging because of its low cost, non-flammability, inert nature and easy availability compared to compressed air. It is widely used to perform purging because it is dry and has no oil contaminants, making it suitable for a range of applications.

Additionally, nitrogen is also often used in piping systems as a protective measure against corrosion due to dampness. Nitrogen purging can be effectively used in construction, maintenance and retrofitting of industrial plants.

It is an effective way to increase the lifespan of machines by removing moisture or contaminants from the system that can degrade or damage components. Nitrogen is used to evacuate existing air from new or old systems by displacing it with nitrogen gas.

It is also used to fill and pressurize pipes and vessels with nitrogen. Furthermore, nitrogen is also used for leak testing of vessels and pressure testing of pipes and flanges to prevent potential defects in the systems.