Tag Archives: coil

The Future of Vape Litigation: Temperature Control

By Michael Preciado
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The e-cigarette or vaping use-associated lung injury (EVALI) outbreak of 2019 caught the attention of many, and has brought with it the scrutiny of both regulators and plaintiffs’ attorneys eager to act as “civil prosecutors.” As Tolkien would say, the Eye of Sauron has now turned its gaze towards the cannabis vapor industry.

With the misinformation and negative publicity that the EVALI outbreak brought to the industry, vaporizer device manufacturers should expect more lawsuits to be filed against them through 2020 and beyond. The cannabis vapor industry should also expect the theories of defect alleged against their products to become more sophisticated as more plaintiffs’ attorneys enter the arena.

One theory of defect you should expect plaintiff’s attorneys to pursue in 2020 is what I generally refer to as “temperature control litigation.”

These pre-filled cartridges are compatible with just about any battery because of the universal 5/10 thread connectors.

Here is the problem:

Typical additives in cannabis oil, while once thought to be safe, can degrade at higher temperatures into toxic chemicals. For example, the Vape Crisis of 2019 was largely attributed to a cannabis oil additive known as vitamin E acetate. While typically regarded as safe for use in nutritional supplements or hand creams, when used in cannabis oil, investigators believe vitamin E acetate can degrade into a toxic chemical when vaped—and is responsible for causing mass pulmonary illness for thousands of consumers.

Researchers do not fully understand how this process occurs, but chemists from the Royal College of Surgeons in Ireland found in a recent study that the key is understanding how temperatures affect chemicals when vaping. Through a process known as pyrolysis, the study found that vitamin E acetate can possibly degrade into ketene when vaped at higher temperatures—depending on the type of coil resistance, voltage and temperature configuration used in a vaporizer device. (Ketene has a high pulmonary toxicity, and can be lethal at high concentrations, while low concentrations can cause central nervous system impairment.) Similar studies have also shown that additives like Propylene Glycol (PG), Vegetable Glycerin (VG), and Polyethylene Glycol (PEG) can degrade into toxic chemicals at high temperatures—which has led Colorado to ban the use of PEG for inhalable cannabis products altogether.

More shocking, is that such temperature control issues are not limited to additives. It is very common for experienced users to experiment with low to high temperatures when vaping cannabis; it is believed that vaping cannabis at low temperatures (325-350°F) results in a mild high, while vaping cannabis at higher temperatures (400-430°F) results in a more euphoric feeling and intense high. But when cannabis is vaped at even higher temperatures (450°F +), industry experts do not really know if or how cannabinoids and terpenes degrade, which combinations of cannabinoids and terpenes affect degradation and what the health risks could be. It’s anyone’s guess.

Cheap batteries with the universal 5/10 thread can heat the product at inconsistent temperatures, raising safety and quality concerns

These temperature control issues are further complicated due to the universal 5/10 thread. Most consumers purchase cannabis oil through pre-filled “carts” (cartridges)—that are compatible with 90% of vaporizer batteries on the market because of universal 5/10 thread connectors. But vaporizer batteries can operate anywhere from sub-300 degrees to 800 degrees and above. Coupled with varying battery voltages, ceramic coil quality and oil quality, vaporizer batteries can produce a wide range of operating temperatures. Consequently, it is possible users could connect a cart to a vaporizer battery (set at too high a temperature configuration) and risk pyrolysis, change the chemicals inside their cannabis cart, and cause unknown harm to themselves.

Unquestionably, all of the above will result in lawsuits. Companies that manufacture cannabis oil will be sued for failing to conduct emissions testing to properly evaluate safe temperature settings for use of their carts. Vaporizer device manufacturers will be sued for failing to publish warnings, instructions and adequate owner’s manuals regarding the same. And the rallying cry against the cannabis vapor industry will be damaging. Plaintiff’s attorneys will accuse the industry of choosing profits over safety: “The cannabis vapor industry knew cannabis oils could turn into toxic chemicals when heated at high temperatures, but instead of conducting long-term emissions testing to evaluate those concerns, the industry chose profits over safety. As long as the industry made money, no one cared what dangers arose from elevated temperatures—and consumers paid the price.”

With the above as background, it is critical for the cannabis vapor industry to get serious about product testing. The industry needs to know if and why certain cannabinoids, terpenes and additives can turn into toxic chemicals when they are vaporized at high temperatures—and how the industry can guard against such dangers. And to cover their bases, the industry needs to publish proper warnings and owner’s manuals for all products. The time to act is now.

Keeping Your Environment Clean: Preventative Measures Against Contamination

By Jeff Scheir
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For years we have heard about and sometimes experienced, white powdery mildew when growing cannabis. It is a problem we can see, and we have numerous ways to combat it. But now more and more states are introducing regulatory testing on our harvests and they are looking for harmful substances like Escherichia coli., Aspergillis Fumigatus, Aspergillis terreus, …  just to name a few. Mycotoxins, mold and bacteria can render a harvest unusable and even unsellable- and you can’t see these problems with the naked eye. How much would it cost you to have to throw away an entire crop?

You bring in equipment to control the humidity. You treat the soil and create just the right amount of light to grow a superior product. You secure and protect the growing, harvesting, drying and production areas of your facility. You do everything you can to secure a superior yield… but do you?

Many of the organisms that can hurt our harvest are being multiplied, concentrated and introduced to the plants by the very equipment we use to control the growing environment. This happens inherently in HVAC equipment.

Your air conditioning equipment cools the air circulating around your harvest in a process that pulls moisture from the air and creates a perfect breeding ground in the wet cooling coil for growth of many of the organisms that can destroy your yield. As these organisms multiply and concentrate in the HVAC system, they then spew out into the very environment you are trying to protect at concentrated levels far greater than outside air. In effect, you are inoculating the very plants you need to keep safe from these toxins if you want to sell your product.

The cannabis industry is starting to take a page from the healthcare and food safety industries who have discovered the best way to mitigate these dangers is the installation of a proper UVC solution inside their air conditioning equipment.

Why? How does UVC help? What is UVC?

What is Ultraviolet?

Ultraviolet (UV) light is one form of electromagnetic energy produced naturally by the sun. UV is a spectrum of light just below the visible light and it is split into four distinct spectral areas – Vacuum UV or UVV (100 to 200 nm), UVC (200 to 280 nm), UVB (280 to 315 nm) and UVA (315 to 400 nm). UVA & UVB have been used in the industry to help promote growth of cannabis.

What is UVC (Ultraviolet C)?

The entire UV spectrum can kill or inactivate many microorganism species, preventing them from replicating. UVC energy at 253.7 nanometers provides the most germicidal effect. The application of UVC energy to inactivate microorganisms is also known as Germicidal Irradiation or UVGI.

UVC exposure inactivates microbial organisms such as mold, bacteria and viruses by altering the structure and the molecular bonds of their DNA (deoxyribonucleic acid). DNA is a “blue print” these organisms use to develop, function and reproduce. By destroying the organism’s ability to reproduce, it becomes harmless since it cannot colonize. After UVC exposure, the organism dies off leaving no offspring, and the population of the microorganism diminishes rapidly.

Ultraviolet germicidal lamps provide a much more powerful and concentrated effect of ultraviolet energy than can be found naturally. Germicidal UV provides a highly effective method of destroying microorganisms.

To better understand how Steril-Aire UVC works, it is important to understand the recommended design. Directed at a cooling coil and drain pan, UVC energy destroys surface biofilm, a gluey matrix of microorganisms that grows in the presence of moisture. Biofilm is prevalent in HVAC systems and leads to a host of indoor air quality (IAQ) and HVAC operational problems. UVC also destroys airborne viruses and bacteria that circulate through an HVAC system and feed out onto the crop. HVAC cooling coils are the largest reservoir and amplification device for microorganisms in any facility.

For the most effective microbial control, UV germicidal Emitters are installed on the supply side of the system, downstream from the cooling coil and above the drain pan. This location provides more effective biofilm and microbial control than in-duct UVC installations. By irradiating the contaminants at the source – the cooling coils and drain pans – UVC delivers simultaneous cleaning of surface microorganisms as well as destruction of airborne microorganisms and mycotoxins. Steril-Aire patented this installation configuration in 1998.

The recirculating air in HVAC systems create redundancy in exposing microorganisms and mycotoxins to UVC, ensuring multiple passes so the light energy is effective against large quantities of airborne mycotoxins and cleaning the air your plants live by.

Where are these mycotoxins coming from?

Aspergillus favors environments with ample oxygen and moisture. Most pre-harvest strategies to prevent these mycotoxins involve chemical treatment and are therefore not ideal for the cannabis industry.

Despite the lack of cannabis protocols and guidelines for reducing mycotoxin contamination, there are some basic practices that can be utilized from other agricultural groups that will help avoid the production of aflatoxins and ochratoxins.

When guidelines are applied correctly to the cannabis industry, the threat of aflatoxin and ochratoxin contamination can be significantly reduced. The place to start is a clean air environment.

Design to win

The design of indoor grow rooms for cannabis is critical to the control of airborne fungal spores and although most existing greenhouses allow for the ingress of fungal spores, experience has shown that they can be retrofitted with air filters, fans, and UVC systems to make them relatively free of these spores. Proper designs have shown clearly that:

  1. Prevention via air and surface disinfection using germicidal UVC is much better than chemical spot treatment on the surface of plants
  2. High levels of air changes per hour enhance UVC system performance in reducing airborne spores
  3. Cooling coil inner surfaces are a hidden reservoir of spores, a fertile breeding ground and constitute an ecosystem for a wide variety of molds. Continuous UVC surface decontamination of all coils should be the first system to be installed in greenhouses to reduce mildew outbreaks.

UVC can virtually eliminate airborne contaminants

Steril-Aire graphic 4

Steril-Aire was the first and is the market leader in using UVC light to eliminate mold and spores to ensure your product will not be ruined or test positive.

  1. Mold and spores grow in your air handler and are present in air entering your HVAC system.
  2. Steril-Aire UVC system installs quickly and easily in your existing system.
  3. The Steril-Aire UVC system destroys up to 99.999% of mold/spores.
  4. Plants are less likely to be affected by mold…with a low cost and no down time solution.

It’s time to protect your harvest before it gets sick. It’s time to be confident your yield will not test positive for the contaminants that will render it unusable. It’s time to win the testing battle. It’s time for a proper UVC solution to be incorporated throughout your facilities.