Categories
BLOG

best temp to vape weed reddit

Ideal Temperatures For Vaporizing Cannabis

Temperature settings give users more control over their vaporizing experience. Higher temps result in more potent highs, whilst lower ones result in gentle and functional effects.

Learn how to use vaping temperature to control your high.

  • 1. Why vaporizer temperature matters for cannabis
  • 2. The science of vaporizing cannabinoids and terpenes
  • 3. Isolating THC and CBD with vaporizer temperatures
  • 4. The ideal temperature brackets for vaporizing cannabis
  • 4.a. Low: 119–159°C/246–318°F
  • 4.b. Low/medium: 160–180°C/320–392°F
  • 4.c. Medium/high: 181–200°C/357–392°F
  • 4.d. High: 201°C+/393°F+
  • 5. Tips for finding the ideal vaporizer temperature
  • 6. What to do with vaped buds?
  • 1. Why vaporizer temperature matters for cannabis
  • 2. The science of vaporizing cannabinoids and terpenes
  • 3. Isolating THC and CBD with vaporizer temperatures
  • 4. The ideal temperature brackets for vaporizing cannabis
  • 4.a. Low: 119–159°C/246–318°F
  • 4.b. Low/medium: 160–180°C/320–392°F
  • 4.c. Medium/high: 181–200°C/357–392°F
  • 4.d. High: 201°C+/393°F+
  • 5. Tips for finding the ideal vaporizer temperature
  • 6. What to do with vaped buds?

Vaping cannabis has exploded in popularity. This modern alternative to smoking has gained traction as a potentially healthier option. The lack of combustion and carcinogenic substances makes vaping easier on the lungs. Plus, lower temperatures help to preserve the complex flavour of each strain. In contrast, smoking exposes the herb to violently high temperatures. Whether bud is burned with a basic flint-and-steel lighter or a blowtorch, it’s still getting burnt.

Modern vaporization technology allows cannabis lovers to vape their bud at a range of temperatures. Not only does this level of control make vaping easier on the pulmonary system, but it also allows users to customise every single hit. This groundbreaking innovation has changed the way people enjoy cannabis, unlocking an ability to target specific molecules, tastes, and effects.

WHY VAPORIZER TEMPERATURE MATTERS FOR CANNABIS

The cannabis plant is an organic chemical factory. Its flowers produce small, mushroom-shaped outgrowths called trichomes. These tiny structures pump out resin loaded with psychoactive and medicinal molecules. Among this repertoire are over 100 cannabinoids, more than 100 terpenes, and numerous flavonoids. By modifying vaporization temperature, cannabis users can optimise the concentration of specific molecules in each hit.

Every cultivar contains varying levels of cannabinoids and terpenes. THC—one of the most common cannabinoids—provides a psychotropic high and a long list of therapeutic qualities. In contrast, CBD offers powerful therapeutic qualities without any psychotropic effect. Most modern strains offer high levels of THC. However, breeders have recently developed strains containing high levels of CBD, or strains with a 1:1 ratio of the two cannabinoids.

Science is starting to pay more attention to other major and minor cannabinoids. Research has already confirmed that CBG (cannabigerol) offers painkilling and anti-inflammatory effects. THCV (tetrahydrocannabivarin) can help to suppress the effects of THC and may combat pain and inflammation. CBC (cannabichromene) appears to reduce swelling and preserve mammalian brain cells. This is just the tip of the iceberg! As the science progresses, more data will surely begin to surface.

CANNABIS BOILING POINT TEMPERATURES
THC-A (105ºC / 221ºF)
B- CARYOPHYLLENE (119°C / 246°F)
CBD-A (120ºC / 248ºF)
B-SITOSTEROL (134°C / 273°F)
A-PINENE (156°C / 312°F)
THC (157°C / 314°F)
CBD (160–180°C / 320–356°F)
B-MYRCENE (166–168°C / 330–334°F)
A8 THC (175–178° / 347–352°F)
CINEOLE (176°C / 348°F)
LIMONENE (177°C / 350°F)
P-CIMENE (177°C / 350°F)
APIGENIN (178°C / 352°F)
CANNFLAVIN-A (182°C / 356°F)
CBN (185°C / 365°F)
LINALOOL (198°C / 388°F)
HUMULENE (198ºC / 388ºF)
BENZENE (205–365°C / 401–689°F)
TERPINEOL (218°C / 424°F)
CBC (220ºC / 428ºF)
THCV (220°C / 428°F)
PULEGONE (224°C / 435°F)
COMBUSTION (232ºC / 450ºF)
QUERCETIN (250°C / 482°F)
CANNABIS BOILING POINT TEMPERATURES
THC-A (105ºC / 221ºF)
CBD-A (120ºC / 248ºF)
APIGENIN (178°C / 352°F)
CANNFLAVIN-A (182°C / 356°F)
CBN (185°C / 365°F)
LINALOOL (198°C / 388°F)
HUMULENE (198ºC / 388ºF)
BENZENE (205–365°C / 401–689°F)
TERPINEOL (218°C / 424°F)
CBC (220ºC / 428ºF)
THCV (220°C / 428°F)
PULEGONE (224°C / 435°F)
COMBUSTION (232ºC / 450ºF)
QUERCETIN (250°C / 482°F)

And let’s not forget about our friends, the terpenes. These aromatic molecules can be found all throughout the plant kingdom. Terpenes provide the signature scents and tastes of each cannabis cultivar, but their function isn’t limited to sensory pleasure. These molecules offer a host of therapeutic effects and are even believed to synergise[1]with cannabinoids to produce more pronounced medicinal effects. Myrcene is one of the most abundant terpenes within all cannabis cultivars. The chemical provides tastes of earthiness and cloves, and is known for its relaxing and sedating effects.

Myrcene enhances the anti-inflammatory effects of CBD, as well as the muscle-relaxing effects of THC. Caryophyllene is another major terpene found in cannabis flowers, contributing tastes of pepper and spice. Also recognised as a “dietary cannabinoid”, the terpene is capable of producing anti-inflammatory effects[2] by binding to CB2 receptors of the endocannabinoid system.

Cannabis users often select strains based on their cannabinoid and terpene concentration. Recreational users may choose a high-THC strain for maximal psychoactive effects. They might also look for a variety high in myrcene to ensure a sedating high. By comparison, medicinal users might opt for a strain high in CBD, with a good caryophyllene profile to boost the anti-inflammatory effects.

By altering vaping temperature, cannabis users can ensure they receive maximum levels of the desired constituents. Plus, playing around with temperature settings can make each hit more pleasant. Users can set their devices to low temperatures while still getting all of the desired molecules. This allows for smooth hits loaded with cannabinoids, that are also less harsh on the throat and lungs.Below, we’ll discuss how to use temperature settings to zero-in on certain cannabis chemicals.

THE SCIENCE OF VAPORIZING CANNABINOIDS AND TERPENES

Every molecule has a specific boiling point. When exposed to a certain temperature, terpenes and cannabinoids transform into vapor. However, these boiling points vary among the different constituents. In truth, the boiling points of many cannabinoids and terpenes have yet to be confirmed. Cannabis science is still in the early stages—thanks to decades of prohibition. There’s a bunch of conflicting information out there regarding which molecules evaporate at which temperatures.There are some rough guidelines and a couple of seemingly reliable guides. However, at this point, it’s largely a matter of trial of error. Cannabis users should experiment with different strains and temperature ranges to find the results that work best for them.

ISOLATING THC AND CBD WITH VAPORIZER TEMPERATURES

Some cannabis molecules do have very similar boiling points. For example, THC evaporates at a boiling point of 157°C/314.6°F. CBD evaporates at a slightly higher temperature range of 160–180°C/320–356°F. Is it possible to isolate these molecules during vaporization? Maybe with an incredibly accurate vape, but the chances are low. Plus, THC will evaporate before the boiling point for CBD has even been reached.If you’re seeking significant levels of THC or CBD, it’s best to start off with a strain high in either cannabinoid. High-THC strains include Royal Gorilla and Fat Banana. For high-CBD strains, check out our top 5 list from 2019 here.

THE IDEAL TEMPERATURE BRACKETS FOR VAPORIZING CANNABIS

Cannabis users can expect different psychoactive effects at different temperature ranges. This will, of course, vary depending on the strain and the individual. Below is a rough outline of the effects produced by each temperature bracket.

LOW: 119–159°C/246–318°F

Vaping within this temperature range will liberate THC. This bracket will also target numerous terpenes that add pleasant tastes and therapeutic effects. Let’s take a look at the main target molecules.

• Caryophyllene: 119°C/246°F

Caryophyllene is a dominant terpene within most cannabis strains. The molecule is also referred to as a dietary cannabinoid due to its presence within food sources such as black pepper, and its action on the CB2 receptor. Caryophyllene may help to manage pain by reducing inflammation.

CARYOPHYLLENE
CATEGORY Terpene
EFFECT Reduce inflammation
PSYCHOACTIVITY Non-psychoactive
FLAVOR Spicy
STRAIN Sweet ZZ
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
CARYOPHYLLENE Terpene Reduce inflammation Non-psychoactive Spicy Sweet ZZ
• β-sitosterol: 134°C/273°F

β-sitosterol is one of several flavonoids found within cannabis. The molecule has demonstrated anti-inflammatory activity [3] .

Β-SITOSTEROL
CATEGORY Flavonoid
EFFECT Anti-inflammatory
PSYCHOACTIVITY Non-psychoactive
FLAVOR Unflavored
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
Β-SITOSTEROL Flavonoid Anti-inflammatory Non-psychoactive Unflavored
• α-pinene: 156°C/312°F

α-pinene adds delicious tastes of pine and rosemary to this temperature bracket. The terpene is associated with anti-anxiety effects and may help to prevent the adverse effects of THC, such as short-term memory impairment. α-pinene may also synergise with THC to increase airflow to the lungs.

A-PINENE
CATEGORY Terpene
EFFECT Anti-anxiety
PSYCHOACTIVITY Non-psychoactive
FLAVOR Pine, Rosemary
STRAIN Haze Berry
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
A-PINENE Terpene Anti-anxiety Non-psychoactive Pine, Rosemary Haze Berry
• THC: 157°C/314°F

THC is the main psychotropic component in cannabis. The cannabinoid penetrates the blood-brain barrier and activates CB1 receptors in the central nervous system. THC alters the firing pattern of neurons and catalyses an acute rise in the neurotransmitter dopamine. This results in euphoria, happiness, giggles, and increased appetite. High levels of THC can induce a profound altered state of consciousness that causes anxiety in some users.

THC
CATEGORY Cannabinoid
EFFECT Euphoria and happiness
PSYCHOACTIVITY Psychoactive
FLAVOR Unflavored
STRAIN Hulkberry
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
THC Cannabinoid Euphoria and happiness Pyschoactive Unflavored Hulkberry
• CBD: 160–180°C/320–356°F

CBD induces a relaxing and calming effect, but it’s not psychoactive in the same sense at THC—it can’t get you high. Instead, CBD is known to counteract some of the effects of THC by temporarily blocking CB1 receptors. CBD is also believed to act via numerous other molecular pathways to decrease inflammation and impart antioxidant and neuroprotective effects.

CBD
CATEGORY Cannabinoid
EFFECT Antioxidant, neuroprotective
PSYCHOACTIVITY Non-psychoactive
FLAVOR Olive oil or Hemp seed
STRAIN Solomatic CBD
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
CBD Cannabinoid Antioxidant, neuroprotective Non-psychoactive Olive oil or Hemp seed Solomatic CBD

LOW/MEDIUM: 160–180°C/320–392°F

Vaping within this temperature range invites some extremely interesting molecules to the party. If you’re vaping high-CBD flowers, this is the optimal range to release the molecule alongside key terpenes. If you’re vaping high-THC flowers, you’ll unleash a lot more terpenes at this temperature.

• Myrcene: 166–168°C/330–334°F

Myrcene is the most common terpene within cannabis, and it becomes available within this temperature bracket. The molecule provides tastes of earthiness, grapes, and spice. Myrcene exerts a slightly sedating effect and is the chemical behind the relaxing properties of most indica cultivars.

MYRCENE
CATEGORY Terpene
EFFECT Relaxing
PSYCHOACTIVITY Non-psychoactive
FLAVOR Grapes, spice
STRAIN Dance World
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
MYRCENE Terpene Relaxing Non-psychoactive Grapes, spice Dance World
• Δ8-THC: 175–178°/347–352°F

Δ8-THC adds a subtle psychoactive kick to this temperature bracket. It’s an analogue of THC that binds to CB1 receptors to produce anti-nausea, anti-anxiety, appetite-stimulating, painkilling, and neuroprotective effects. However, Δ8-THC only occurs in cannabis in very small amounts. Additionally, it has a lower psychoactive potency than its more common counterpart.

Δ8-THC
CATEGORY Cannabinoid
EFFECT Anti-nausea
PSYCHOACTIVITY Psychoactive
FLAVOR Unflavored
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
Δ8-THC Cannabinoid Anti-nausea Psychoactive Unflavored
• Cineole: 176°C/348°F

Cineole is a fascinating terpene. It’s one of the main components of eucalyptus, yet is quite rare in modern-day cannabis strains. The terpene has demonstrated [4] anti-viral, painkilling, anti-fungal, antibiotic, and anti-inflammatory effects. Cineole also increases cerebral blood flow.

CINEOLE
CATEGORY Terpene
EFFECT Anti-viral
PSYCHOACTIVITY Non-psychoactive
FLAVOR Eucalyptus
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
CINEOLE Terpene Anti-viral Non-psychoactive Eucalyptus
• Limonene: 177°C/350°F

Limonene infuses cannabis vapor with hints of citrus. The molecule makes the effects of THC more cerebral and euphoric. In animal research [5] , limonene reduced anxiety and boosted serotonin levels in the prefrontal cortex, as well as dopamine levels in the hippocampus.

LIMONENE
CATEGORY Terpene
EFFECT Boost dopamine
PSYCHOACTIVITY Non-psychoactive
FLAVOR Citrus
STRAIN Green Gelato
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
LIMONENE Terpene Boost dopamine Non-psychoactive Citrus Green Gelato
• p-cymene: 177°C/350°F

p-cymene is found in cumin and thyme. It contributes a sweet and citrusy aroma, and has been shown in animal studies to display a sedating effect [6] .

P-CYMENE
CATEGORY Terpene
EFFECT Sedative
PSYCHOACTIVITY Non-psychoactive
FLAVOR Sweet, citrus
STRAIN Sour Diesel
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
P-CYMENE Terpene Sedative Non-psychoactive Sweet, citrus Sour Diesel
• Apigenin: 178°C/352°F

Apigenin is another flavonoid found in the cannabis plant. This molecule exerts anti-anxiety effects and is the key anxiolytic agent found in chamomile flowers. Impressively, it acts on the same receptors as benzodiazepines, yet doesn’t cause the side effects of amnesia or sedation.

APIGENIN
CATEGORY Flavonoid
EFFECT Anxyiolitic
PSYCHOACTIVITY Non-psychoactive
FLAVOR Chamomille
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
APIGENIN Flavonoid Anxyiolitic Non-psychoactive Chamomille

MEDIUM/HIGH: 181–200°C/357–392°F

This temperature range adds further therapeutic properties to cannabis vapor. The addition of a particular cannabinoid also adds a sedating and relaxing edge.

• Cannflavin A: 182°C/356°F

Cannflavin A is a flavonoid found in larger quantities within cannabis leaves. The molecule possesses impressive anti-inflammatory [7] properties .

CANNFLAVIN A
CATEGORY Flavonoid
EFFECT Anti-inflammatory
PSYCHOACTIVITY Non-psychoactive
FLAVOR Nutty
STRAIN OG Kush
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
CANNFLAVIN A Flavonoid Anti-inflammatory Non-psychoactive Nutty OG Kush
• CBN: 185°C/365°F

CBN (cannabinol) was the first cannabinoid isolated from cannabis. Unlike other cannabinoids, it’s not made in the plant via enzymatic reactions. Instead, CBN results from the degradation of THC. CBN will add an element of sedation to the high, alongside anti-inflammatory effects. CBN also shows promise as an anticonvulsant and may reduce the symptoms of psoriasis.

CBN
CATEGORY Cannabinoid
EFFECT Anticonvulsant
PSYCHOACTIVITY Psychoactive
FLAVOR Unflavored
STRAIN Royal AK
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
CBN Cannabinoid Anticonvulsant Psychoactive Unflavored Royal AK
• Linalool: 198°C/388°F

Linalool adds a potent floral aroma to many cannabis cultivars, with hints of lavender and citrus. The terpene is responsible for several of the potential therapeutic properties of cannabis. The molecule possesses antidepressant, anti-anxiety, and immunopotentiating properties—it directly enhances several immune functions.

LINALOOL
CATEGORY Terpene
EFFECT Antidepressant
PSYCHOACTIVITY Non-psychoactive
FLAVOR Floral
STRAIN Special Kush 1
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR STRAIN
LINALOOL Terpene Antidepressant Non-psychoactive Floral Special Kush 1

HIGH: 201°C+/393°F+

This is the high end of the temperature spectrum. Here, further beneficial cannabinoids and terpenes evaporate. However, things are starting to get hot. This is where vaping becomes more like smoking and some detrimental molecules turn into gases. Although this temperature range is thought to release all of the beneficial compounds within cannabis flowers, it’s a fine balance between optimal vaporization and releasing harmful chemicals.

• Benzene: 205–365°C/401–689°F

Unfortunately, the beneficial molecules in this temperature bracket come along with a hit of benzene. This carcinogen is one reason many cannabis users are abandoning smoking. Although benzene has a boiling point of 80°C, some vape models have been proven to eliminate the chemical up to temperatures of 200°C. So far, there’s no confirmed figure of the vaporization point of benzene in cannabis consumption. Some reports suggest the number could be as high as 365°C.

• Terpineol: 218°C/424°F

Terpineol provides a subtle scent of lilac and commonly appears in perfumes and cosmetics. The terpene has demonstrated multiple therapeutic [8] effects, including anti-malarial, antibiotic, antioxidant, and sedative properties.

TERPINEOL
CATEGORY Terpene
EFFECT Anti-malarial
PSYCHOACTIVITY Non-psychoactive
FLAVOR Lilac
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
TERPINEOL Terpene Anti-malarial Non-psychoactive Lilac
• THCV: 220°C/428°F

THCV (tetrahydrocannabivarin) evaporates at higher temperatures. This cannabinoid is an analogue of THC and occurs in minor concentrations. However, cultivars high in the cannabinoid do exist. THCV works to activate and block CB1 receptors. The cannabinoid is associated with anticonvulsant properties [9] and has shown the ability to combat pain and inflammation. THCV may also assist with weight loss and fat metabolism.

THCV
CATEGORY Cannabinoid
EFFECT Combat pain
PSYCHOACTIVITY Psychoactive
FLAVOR Unflavored
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
THCV Cannabinoid Combat pain Psychoactive Unflavored
• Pulegone: 224°C/435°F

Pulegone generates a pleasant odour of peppermint and camphor. Heating your vape to these temperatures might be worth it to access this terpene [10] . The molecule exerts memory-boosting and sedating effects. Some evidence also suggests that pulegone can combat fevers .

PULEGONE
CATEGORY Terpene
EFFECT Memory-boosting
PSYCHOACTIVITY Non-psychoactive
FLAVOR Peppermint
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
PULEGONE Terpene Memory-boosting Non-psychoactive Peppermint
• Quercetin: 250°C/482°F

Quercetin is a cannabis flavonoid with an antioxidant [11] potency that rivals that of vitamin C. The molecule also possesses antiviral and antineoplastic effects.

QUERCETIN
CATEGORY Flavonoid
EFFECT Antiviral
PSYCHOACTIVITY Non-psychoactive
FLAVOR Bitter
CATEGORY EFFECT PSYCHOACTIVITY FLAVOR
QUERCETIN Flavonoid Antiviral Non-psychoactive Bitter

TIPS FOR FINDING THE IDEAL VAPORIZER TEMPERATURE

Identifying the best vaporization temperature will vary from person to person and from strain to strain. It’ll largely depend on the desired outcome. Recreational users seeking mostly THC can keep their temps medium. Medicinal users might want to boost temps to access more molecules, while keeping them low enough to avoid carcinogens. Here are some key tips to finding the right vape range for you:

• Research your vape before you buy it

Not all vaporizers offer the luxury of altering the temperature range. If you want the liberty of targeting specific temperatures, you’ll need to buy a vape that’ll let you. Here are some tips to help you choose the right model.

• Just wanna get high?

If that’s the case, you can save your lungs some work and keep temperatures at a maximum of 170°C. You’ll evaporate most of the psychoactive molecules and still access some tasty terps. You might miss out on some CBD, but there won’t be much around anyway if you’re smoking high-THC buds.

  • Aim high

Aim around 10°C hotter than the boiling points of your desired constituents. Not all vapes are accurate, and you’ll want to ensure than you actually vaporize every last bit of your target molecules.

  • You’ll need heat for a full-spectrum hit

As you’ve probably gathered from the information above, quite a bit of heat is needed to make the most of your flowers. If you’re a medicinal user looking for an array of terps and cannabinoids, you’ll need to hit temps of around 220°C.

  • You can’t access CBD without evaporating THC

If you’re vaping a 1:1 strain, you’re going to get high in the pursuit of CBD. This is because it has a higher boiling point than THC. If you want to vape CBD without getting baked, you’re going to need to start out with a high-CBD variety.

WHAT TO DO WITH VAPED BUDS?

Chances are, there are still some residual cannabinoids left over after a vape session. Your bud will appear brown and unappetising, but it’s still useful. Don’t throw it away! This material can get you baked once again. Use it to make edibles or tinctures. Oh, and did you know? Cannabis isn’t the only fun herb to vape. There are plenty of legal herbs you can try out if your stash runs dry, or if you want to try something different. They all taste great and offer unique effects.

There's more to vaping than hitting a button and inhaling. It's a nuanced method. Learn how to customise every hit with different temperature brackets.

Vaporization

learn everything there is to know about vaporizing

Introduction

Vaporizing, as it applies to medical marijuana, is the process of heating dried cannabis to a temperature just below its combustion point of 392°F. Although vaporizers have been around for some time now, it is only in the last five to ten years that the benefits of vaporization have become widely known.

Proper cannabis use has noticeable health benefits. In fact, nearly all of the health issues and problems associated with potentially harmful smoke (including carcinogens, tar, etc.) can be avoided if the herb is only heated to the point where the desired cannabinoids (typically found in the resin of the flower), are released without igniting/destroying the material. This is precisely what a vaporizer does.

Accordingly, a variety of devices have flooded the market. In fact, today there are numerous products to help facilitate this process including pen vaporizers, portable vaporizers, and stationary vaporizers. Despite the wide selection, all vaporizers consist of a heating source and a delivery system. Here we will explore each of the different types of vaporizers, heating sources, delivery systems, and look at which are the preferred choices for patients approaching vaporizing from a health/wellness perspective.

Types of Vaporizers

Pen Vaporizers

Pen vaporizers (or “vape pens”) are essentially small vaporizers shaped like a pen or e-cig. They are typically discrete, easy to use, and much cheaper than more robust portable vaporizers or stationary vaporizers — and for good reason. Vape pens almost always utilize conduction heating (as opposed to the preferred convection heating method), making it important that you understand how to operate it to ensure your product does not get overheated or even burned. There are a large number of vape pens on the market currently.

Portable Vaporizers

Portable vaporizers are growing in popularity as vape technology continues to develop/enhance. If you want to vape in many different locations or travel a lot, perhaps a portable vaporizer is for you. Slightly larger than a pen vape, a portable vaporizer is any vape that can be taken on the go. Convenience is key with these vaporizers and they can easily pack up and go with you wherever you want to go. The majority of portable vapes are rechargeable but there are also butane and flame options.

Desktop / Stationary Vaporizers

Desktop vaporizers (or “stationary vaporizers”) are generally “stay at home” vaporizers that typically need to be plugged in. Although these vaporizers aren’t portable, desktop vapes generally deliver much higher quality vapor through a convection heating source and offer many more features. For instance, you can only get balloon attachments for stationary vaporizers. Also, stationary vapes sometimes allow for group vape sessions as opposed to solo-vape sessions. They typically come equipped with larger bowls and more robust heating systems that make vaporizing herbs a relaxing and fulfilling experience.

Delivery Systems

Whip / Tubing Vaporizers

The vapor produced by a vaporizer is transferred from the heating chamber to the user through a variety of delivery systems. In convection vaporizers, a fan or pump is used to force the air over the herb and through a ‘whip’, or into a bag, otherwise known as a ‘balloon’. Whips are made of silicone piping and are around three feet long. One end of the whip is a mouthpiece, while the other is a glass connection that holds your herbs and slides over or into the heating element. The end that holds the herb is typically referred to as a ‘wand’ and contains a screen to ensure no material is drawn through the hose and into your mouth.

Bags / Balloon Style Vaporizers

Bag style vaporizers like the Arizer Extreme Q make use of food grade plastic often used to make oven-roasting bags (oven-roasting bags can be used as cheap replacements). The bags can attach and detach from the unit using a valve that prevents vapor loss. A mouthpiece is then inserted into the valve when the bag is detached from the unit, allowing the bag to be passed around a room.

A number of vaporizers use tubes or stems made out of anything from glass to wood, whereas other units require you to draw directly from the device. While these vaporizers supply a direct vapor stream with little opportunity for loss of taste, many users find the vapor to be too hot and concentrated. Many of these styles of vaporizers can be supplemented with a whip or stem.

Direct Draw Vaporizers

Direct draw is most commonly found with portable/pen vaporizers. These vaporizers offer mouthpieces which are found attached directly to the unit and allow the vapor to flow directly from the heating element to the user. Some direct draw vaporizers offer a removable stem (typically glass), while others have the mouthpiece permanently attached (like pen vaporizers).

Heating Sources

Conduction Heating

Conduction heating works by utilizing direct contact of the herb with an electrically heated surface, often times solid metal or a screen. A common problem with vaporizers like this is burning of the herb due to poor heat distribution. It is very difficult to regulate the temperature with vaporizers that use conduction. Included in this category are e-cigs, vaporizer pens, and a majority of portable vaporizers currently on the market.

Convection Heating

Convection heating, on the other hand, works by passing precisely heated air over the dried herb, vaporizing the material more evenly and efficiently. This makes convection heating the preferred choice for many patients looking to get the most out of their vaporization experience. The herb never comes in touch with the heating element; instead air is either forced by a fan, or through inhalation, over the herbs and through the delivery system. Heating elements for convection vaporizers are typically made out of ceramic, though some are made out of stainless steel or other types of metal. Ceramic heating elements retain heat extremely well and are unaffected by cool air drawn through the system. Examples of quality vaporizers using 100% convection heating systems include the VapeXhale EVO, the Arizer Extreme Q, and the Herbalizer.

Radiant / Infrared Heating

Radiation vaporizers use radiant energy either produced by electricity or a light source to provide heat. The herb absorbs the radiant energy, increasing in temperature until its components vaporize. These types of vaporizers are more rare, and are on par with convection vapes in term of quality of vapor produced. The Magic Flight Launch Box combines radiation [or infrared heating] with conduction heating by engaging a battery, sending a current across a metal screen transferring heat to your herb packed on top. At the same time, the hot screen emits infrared rays that transfer additional heat across the herb.

Compatibility

Vaporizing Dry Herbs

Vaporizers designed to heat the cannabis in its raw, bud form are known as dry herb vaporizers. Dry herbs of all sorts have been used for centuries for meditation, relaxation and medicinal purposes. Certain flowers and herbs (including cannabis) can dried, crushed and then inserted into a vape pen that is dry-herb capable. The vape’s oven chamber will heat up the dry herbs which will release a vapor which can then be inhaled. To get the most out of your vaporization experience, be sure to grind your material using an herb grinder to break your material down to create more surface area for the heat to reach.

Vaporizing Concentrates

Waxes, shatters, crumbles, and oils are a concentrated form of cannabinoids and terpenes and are therefore referred to as cannabis concentrates. Due to these products being a concentrated mix, you have the benefit of only needing a very small amount to get the same effect as you would with larger amounts of a less concentrated mix. If you are looking to vape concentrates you will need a vapor pen that is capable of doing so as not all vaporizers have this functionality. In fact, many vaporizer manufacturers now offer special attachments to convert standard ovens to be compatible with concentrates but it often costs extra.

Temperatures

Studies have found that the sweet spot for vaporizing cannabis is around 338°F, even though cannabinoids [the medicinal compounds found in the cannabis plant] begin to vaporize at 285°F. At this temperature the active cannabinoids in cannabis are converted to a vapor that can comfortably be inhaled as opposed to a joint which can burn as hot as 2000°F or higher.

While the exact amount of components released depends on the compounds present and the temperature, none of the toxic bi-products of smoking plant matter is present in the vapor. This means that vapor will have a much higher percentage of desired cannabinoid /terpenoid content when compared to smoke.

Many vaporizers typically feature a digital temperature control that allows you to alter the ratio (the term ratio is important here) of active components you’re vaporizing. When you ignite cannabis with a lighter, you are releasing all cannabinoids at once, often times destroying desirable cannabinoids and terpenes that give cannabis its unique flavor, smell, and effects. Since terpenoids have the lowest boiling point, around 132°F, they are typically the first compounds to be released by vaporizing. As such, if you are looking for a tasty, aromatic hit, you should select the lowest available temperature setting on your vaporizer and slowly work your way up to 350°F to finish off your material. As you approach the boiling points of other compounds, you are increasing the quantity of the compounds that is vaporized.

It is important to keep in mind that even at temperatures below a compounds boiling point, vapor is still produced similar to the way boiling water releases wisps of water vapor before the boiling point is reached. The vapor is just present in lower ratios. Since vapor is not always visible at lower temperatures, you must judge what temperature to set the vaporizer at by the taste and smell of the vapor produced.

Although you will mostly find these temperature controls on convection units, temperature controlled conduction vaporizers are beginning to appear. While it is safe to assume that most displays do not represent the exact temperature, most are very close and is much more accurate than vaporizers without temperature control. It is also important to note that the displayed temperature is not actually a measurement of the temperature of the herb you are vaporizing.

Related Studies

The Institute of Medicine found in 1999 that, “because of the health risks associated with smoking, smoked cannabis should generally not be recommended for long-term medical use.” Although there is no evidence that smoking cannabis causes lung cancer, or even damages them, it is thought that the smoke can potentially cause symptoms that may lead to respiratory problems.

A study published in the Journal of the American Academy of Neurology concluded that, “…there was virtually no exposure to harmful combustion products using the vaporizing device.”

This is why vaporizing should be the primary delivery system for medical marijuana patients. Multiple scientific studies have been conducted confirming vaporizing as being a healthy alternative to traditionally smoked marijuana.

Another study performed by researchers at Leiden University found that the effects of using a vaporizer are “comparable to the smoking of cannabis, while avoiding the respiratory disadvantages of smoking.”

These results aren’t the culmination of bias or wishful thinking at the hands of medical marijuana advocates or sympathizers; they are the result of sound scientific theory and evidence. It’s a fact: Vaporizers successfully deliver the therapeutic effects of marijuana without exposing patients to the harmful side effects from smoking.

Long term risks associated with inhaling combusted materials (such as respiratory disease and multiple types of cancer) are often not a main concern for older patients or those already ailing from cancer or other debilitating diseases. However for younger patients medicating for reasons such as eating disorders, anxiety, stress, insomnia, etc., long term effects of smoking medical marijuana should be taken into consideration. Simply put, vaporizing cannabis is a healthy alternative that will not come back to harm patients in the future like smoking has the potential to do.

A vaporizer or vaporiser is a device used to vaporize the active ingredients of plant material, commonly cannabis, tobacco, or other herbs or blends.