Making Essential Oils - Steam Distillation, CO2's and Absolutes         » Jump to 'CO2 Distillation Explained'


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Aromatherapy Goes 'High Tech' - New methods of essential oil extraction are entering the mainstream of aromatherapy, offering new choices in oils never before available.

Essential Oil Still
With the new labels of 'CO2' and 'SCO2', along with the traditional 'steam' and 'hydro' distillations, 'absolutes', and 'cold pressing', a little education for the aromatherapy enthusiast can go a long way in essential oil selection. Is one process better than another? Does one produce a nicer smelling oil, or one with greater aromatherapeutic value? It turns out that essential oil production, like wine making, is an art form as well as a science. The value of the newer processing methods depends greatly on the experience of the distiller, as well as the intended application of the final product. Each method is important, and has it's place in the making of aromatherapy-grade essential oils.

Steam and Hydro Distillation

Steam distillation, the most common method of essential oil production, involves the flow of steam into a chamber holding the raw plant material. The steam causes small sacs containing essential oil to burst. The oil is then carried by the steam out of the chamber and into a chilled condenser, where the steam once again becomes water. (Hydro-distillation is a similar process where the plant material is boiled, with the resultant steam being captured and condensed). The oil and water are then separated; the water, referred to as a 'hydrosol', can be retained as it will have some of the plant essence. Rose hydrosol, for example, is commonly used for it's mild antiseptic and soothing properties, as well as it's pleasing floral aroma.

How to Make Essential OilsA number of factors determine the final quality of a steam distilled essential oil. Aside from the plant material itself, most important are time, temperature and pressure, and the quality of the distillation equipment. Essential oils are very complex products; each is made up of many, sometimes hundreds, of distinct molecules which come together to form the oil's aroma and therapeutic properties. Some of these molecules are fairly delicate structures which can be altered or destroyed by adverse environmental conditions. So, much like a fine meal is more flavorful when made with patience, most oils benefit from a long, slow 'cooking' process.

The temperature of the extraction chamber cannot be too high, lest some components of the oil be altered or destroyed.
The same is true of the chamber's pressure. Lavender essential oil, for example, should not be processed at over 245 degrees F and three pounds per square inch of pressure (3 psi). Higher temperatures and/or pressures result in a 'harsh' aroma – more chemical than floral – and lessen the oil's therapeutic effects. Also, the extraction period must be allowed to continue for a certain period of time in order to flush ALL the oil's components from the plant, as some are released more quickly than others.

Despite the drawbacks of aggressive processing, high temperatures and pressures are often used to produces large quantities of oil in a short period of time. These oils are usually destined for use in cosmetic and processed food manufacturing, but are sometimes sold to final consumers as essential oils for use in aromatherapy. These oils will be less expensive, but are of limited therapeutic value, and the difference is apparent when the aromas are compared side-by-side.

Rose Essential Oil BottleAbsolutes

Some plants, and particularly flowers, do not lend themselves to steam distilling. They are too delicate, or their fragrance and therapeutic essences cannot be completely released by water alone. These oils will be produced as 'absolutes' – and while not technically considered essential oils they can still be of therapeutic value. Jasmine oil and Rose oil in particular are delicate flowers who's oils are often found in 'absolute' form.

The processing of an absolute first involves the hydrocarbon solvent extraction of a 'concrete' from the plant material, a semi-solid mixture of typically 50% wax and 50% volatile oil. The concrete is again processed using ethyl alcohol (the same alcohol found in beer, wine, etc.) in which the wax is only slightly soluble. The volatile plant oil separates into the alcohol and this mixture is removed. The alcohol is then evaporated and the result is an almost pure plant extract – depending on the care taken in the evaporation process, sometimes 2% or less of the ethyl alcohol may remain. The use of solvents in the extraction process notwithstanding, absolutes can have incredibly deep and complex aromas.

CO2 Distillation Explained

Carbon Dioxide and 'Supercritical' Carbon Dioxide extraction are the latest technologies in distilling essential oils at low temperatures. Both methods involve the use of carbon dioxide as the 'solvent' which carries the essential oil away from the raw plant material. The lower pressure CO2 extraction involves chilling carbon dioxide to between 35 and 55 degrees F, and pumping it through the plant material at 1000 psi. The carbon dioxide in this condition is condensed to a liquid. Supercritical CO2 extraction (SCO2) involves carbon dioxide heated to 87 degrees F and pumped through the plant material at around 8,000 psi – under these conditions, the carbon dioxide is likened to a 'dense fog' or vapor. With release of the pressure, the carbon dioxide escapes in its natural gaseous form, leaving the pure essential oil behind. Supercritical distillation has become the more common of the CO2 methods, though these oils are stilled labeled CO2-distiled or CO2 extracted.

These carbon dioxide methods have a couple of advantages: Like steam distillation, there are no solvent residues left behind, and the resultant product is perfectly pure. Like cold pressing, there is no heat applied to the plant material or essential oil to alter it in any way. The oil produced is very accurate with respect to the original state of the plant. CO2 distillation produces the most therapeutic essential oil for some plants, yet not others. It is highly beneficial for resins such as Frankincense and Myrrh, as more of the larger molecules - considered to have important healing properties - are brought into the essential oil. 'Spice' oils like Ginger, Black Pepper and Clove are more rich, with a bit more 'zing' or 'effervescence' to them. Many common oils are still best steam distilled; German Chamomile for example, only produces its naturally anti-inflammate component of chamulzine when distilled by steam. We select the best distillation method of each oil to offer you the greatest therapeutic effects.

Cold Pressing

Finally, there is the 'cold pressing' of citrus oils from the peels of fruit, as is done with Bergamot oil, Orange oil , Lemon oil , and the like. This method involves the simple pressing of the rind at about 120 degrees F to extract the oil. Little, if any, alteration from the oil's original state occurs – these citrus oils retain their bright, fresh, uplifting aromas like that of smelling a wonderfully ripe fruit.

So What Makes The Best Essential Oil?

CO2's, with some obvious advantages, are not always the best choice for a particular need. They still are the most expensive, despite their higher yields. The resultant product differs slightly compared to one produced another way – the oils produced by steam distillation of some plants may sometimes be found to have a more agreeable aroma. Patchouli oil, for example, seems to benefit from the steam distillation process by becoming a little warmer and richer. Many other essential oils are quite effectively produced via steam distillation, with little alteration from the original plant state. Oils from other plant species do seem more 'complete' with CO2 processing, with Frankincense oil and most of the 'spice' oils being good examples where a little something special is present in the aroma. This likely translates to greater therapeutic properties.

Producing essential oils of aromatherapeutic grade is skill requiring years of experience. It takes the work of a dedicated artesian at every step, from growing and harvesting to fine-tuning the distillation process, to produce a truly fine oil. The making of a fine essential oil relies far more on knowledge and experience than it does on the particular extraction method. There are, however, legitimate reasons to select one distillation method over another – some plants simply require a particular process to produce a fine oil, and the oil needed for a particular application may only be made by one process. In the end, as is often the case in aromatherapy, your own sense of smell can tell you which oil will work best for you.

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*The FDA has not evaluated the statements on this website. No claims are made as to any medicinal value of this oil. The information presented here is for educational purposes of traditional uses and is not intended to diagnose, treat, cure, or prevent any diseases.
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Distillation Methods and Details of Each Essential Oil:

Angelica Root
• CO2 Distilled
Basil, Sweet
• Steam Distilled
Bergamot
• Cold Pressed
Black Pepper
• CO2 Distilled
Black Spruce
• Steam Distilled
Carrot Seed
• Steam Distilled
Cedarwood
• Steam Distilled
Chamomile
• Steam Distilled
Chamomile, Blue
• Steam Distilled
Cinnamon Bark
• Steam Distilled
Cistus (Rock Rose)
• Steam Distilled
Citronella
• Steam Distilled
Clary Sage
• Steam Distilled
Clove
• CO2 Distilled
Coriander
• Steam Distilled
Cypress
• Steam Distilled
Eucalyptus
• Steam Distilled
Eucalyptus, Radiata
• Steam Distilled
Fennel, Sweet
• Steam Distilled
Fir, Balsam
• Steam Distilled
Frankincense
• CO2 Distilled
Geranium
• Steam Distilled
Geranium, Rose
• Steam Distilled
Ginger
• CO2 Distilled
Grapefruit
• Cold Pressed
Helichrysum
• Steam Distilled
Lavender, Highland
• Steam Distilled
Lavender, Wild
• Steam Distilled
Hyssop
• Steam Distilled
Jasmine, Grand.
• Absolute
Jasmine, Sambac
• Absolute
Juniper Berry
• CO2 Distilled
Lemon
• Cold Pressed
Lemon Tea Tree
• Steam Distilled
Lemongrass
• Hydro Distilled
Lime
• Cold Pressed
Melissa
• Steam Distilled
Melissa
• CO2 Distilled
Myrrh
• CO2 Distilled
Myrtle
• Steam Distilled
Neroli
• Steam Distilled
Niaouli
• Steam Distilled
Orange
• Cold Pressed
Oregano
• Steam Distilled
Palmarosa
• Steam Distilled
Patchouli, Dark
• Steam Distilled
Patchouli, Org.
• Steam Distilled
Patchouli, Light
• Steam Distilled
Peppermint
• Steam Distilled
Petitgrain
• Steam Distilled

...see the complete list here.

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