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Different Distillation Methods
First published on Distillique's website in 2015 by GM Bosman
The principle of distillation is simple.
It is a means of separating alcohol from an alcohol containing liquid, on the basis that the different components have different boiling points.
Alcohol boils at 78.3º C at sea level while water boils at 100ºC .When an alcohol-water solution is heated to a temperature somewhere between the boiling point of the alcohol and the water (depending on the ratio of the liquids), the alcohol-water solution starts to boil with more alcohol molecules vaporizing than water molecules.
All distilling equipment function on this simple principal but may use different techniques and/or additional equipment to obtain the final distillate. The equipment used to distill will influence and determine the quality and taste of your end result.
Alembic stills employ simple distillation methods. They are made up of a copper pot often referred to as a boiler that is connected to a cooling recipient by means of copper piping known as a swan neck. The material to be distilled is inserted into the boiler along with water. The pot is then fired by wood, gas or coal. The distiller (hopefully) has very good control over the boiler temperature and can regulate the strength of the distillate to fit his objectives.
How does it work?
By way of example when boiling water we have often observed how the steam from a kettle condenses back to water when it comes in contact with a cold surface. This simple technique is applied to the separation of a mixture into its different parts by boiling the mix in a boiler, condensing the vapors and collecting the resultant liquid.
The process begins by heating a fermented mash or wash, in the boiler of a pot or alembic still (and no - they are not the same thing). As the temperature rises the most volatile components of the mixture (those that vaporize at lower temperatures) begin to evaporate first. This will permit us to isolate the different components of the mixture as these will dominate at different temperatures.
By taking accurate temperature readings one can ascertain which component is dominating at that temperature. As the vapors accumulate in the head of the alembic still (or vapor chamber) they find their way to the condensing recipient via a connecting tube or swan neck.
In the case of the traditional alembic still, the swans neck tubing leads to a serpentine coil in the condenser filled with running cold water. Once the vapours come into contact with the cold surface of the serpentine coil they condense to their liquid state and trickle down to where they are collected, in an appropriate vessel drop by drop.
This process has to be carefully monitored so you know exactly what you are collecting at any given stage of the distillation as we do not want to be collecting any harmful substances.
Most distillation methods are based on the simple distillation method with some modifications.
Simple distillation is quite adequate for isolating fractions from a wide variety of substances with different boiling points and may be used for distilling seawater into pure water, for example. Hydrosols or floral waters are also distilled in this way.
Obviously its main application is for the distillation of alcoholic spirits from any number of fermented substances in which alcohol is present.
It may seem obvious to say that, but to clear up any apparent misconception it must be stated once again that what we are doing here is not making something new which was not there to begin with, but simply separating the alcohol from the mix. So you will end up with the same amount alcohol formed during the fermentation process, but more highly concentrated.
Alembic stills yield better taste and more characteristic distillates, but are slow and require more labor. Nonetheless single malt Scotch whiskey producers, a few rum manufacturers and other quality oriented distillers still employ alembic stills in different forms. In the U.S.A. more and more small distilleries are using alembic stills to produce high end products that are appreciated for their subtle refined taste.
Steam distillation is a technique employed to distill alcohol or extract essential oils from organics by passing steam generated in a pot still through the plant material.
This system is easily controlled and it is the distillation process required to obtain better quality essential oils and hydrosols. Fresh or sometimes dried botanical material is placed in the plant or botanical chamber of the still and pressurized steam is generated in a separate chamber and passed through the organic material to remove the oils.
Temperature sensitive compounds which would normally decompose through simple distillation vaporize at lower temperatures when subjected to steam in the vapor chamber or column of the still. This allows for the separation of essential oils, which tend to be less soluble in boiling water, from chemically complex materials.
When the steam passes through the organic material tiny pockets that hold the essential oils open to release the essential oil molecules without damaging or burning these delicate components. The distillate will contain a mix of water vapor and essential oils which return to their liquid form in the condensing recipient and are separated using a Florentine separator. Both the essential oils and the water called floral water or hydrosols is retained.
The distillation procedure is the same as for the simple distillation method with the exception that distillation takes place by means of steam.
As for essential oils, using steam for alcohol distillation permits the distillate to retain the more delicate flavors and aromas which would otherwise breakdown if subjected to high temperatures. This process is typically used to extract essential oils from aromatic plants to flavor liqueurs, and is one of 4 different distillation methods used in the manufacture of Gin.
Alternatively alcohol may be distilled from fermented matter placed in the column of an alembic still, such as pressed grape skins left over from wine making.
There are obvious advantages to steam distillation with commercial applications in the food, medical and chemical industry, for example aromatic oils, hydrosols, perfumes, essences and flavored liqueurs.
Fractional distillation or rectification is the process of purifying alcohol by repeatedly distilling it to remove water and unwanted compounds.
A fermentation mixture contains water and ethyl alcohol along with a small quantity of compounds that can contribute to the flavor of the product even if they are only present in parts per million. Reflux, rectification or Coffey stills all employ the same principal and system of operation. These stills have a multi-column rectifying system that will discharge a pure distillate with negligible amounts of fusel oils but also little taste. They were first developed to reduce costs involved in process duration.
Fractional distillation is a modified version of the simple distillation technique which allows for the separation of a complex solution into its different components in a single distillation run by taking advantage of the difference in their boiling points.
A simple distillation is effective if you intend to isolate a volatile component (those that evaporate more readily at lower temperatures) from one that is not volatile in a solution, or if there is a marked difference in their boiling temperatures.
When you distill an alcohol solution by means of a simple distillation the distillate obtained will have a higher concentration of alcohol but some water will also be present. You'll have to re-distill this solution repeatedly in order to obtain higher concentrations of alcohol especially if you want to get into the 80% a/v range and above. Fractional distillation improves on that by effectively performing multiple distillations in a single run.
The fractionating column design exemplifies the fractional distillation process.
In simple terms vapors from a boiling mixture rise up a column or fractionating tower and as the temperature along the height of the column decreases the less volatile elements condense on special perforated plates placed horizontally in the column a few centimeters apart.
This may be considered as a single simple distillation run. As the vapours in the boiling mix continue to rise, these bubble up through the condensed liquid on the plates, enriching and reheating the condensate, initiating a second distillation.
The rising vapors are also cleansed and purified as they come in contact with the condensate on the plates. The condensate or distillate may also overflow the plates sequentially from left to right creating a reflux stream of distillate which cool and purify the rising vapors. This process is described as rectification.
Repeated condensation and evaporation of the vapors up the column on the plates results in greater concentrations of volatile components near the top of the column. Theoretically you can obtain 90% recovery with this design.
The Armagnac Type Alembic Still, a professional continuous still is an example of this design
The fractional design is for columns with wide diameters and is therefore not suited for the hobbyist (although some of our clients do use them for private use).
An inexpensive alternative was devised in which these plates are substituted with packing such as copper mesh or ceramic objects and create the same effect as the plates in a fractional column allowing for condensation of the vapors on the packing itself and reflux of the distillate.
This design is appropriately named as the reflux column and is incorporated into our Compact adjustable reflux column still.
The height of the packing for the reflux column needed to do the same job as an ideal plate is known as HETP (Height Equivalent to Theoretical Plate.) The smaller your HETP the greater number of theoretical plates you can pack into a column and therefore the greater alcohol purity obtained.
Fractional distilling revolutionized the petroleum industry. A fractionating or refining tower is used to draw off various petroleum products at different levels. So at the bottom bitumen type substances are drawn off, different fuels at higher levels and petroleum gases at the top. Liquid oxygen and nitrogen is also obtained through fractional distillation.
For the hobbyist the best way to obtain almost colorless and flavorless high purity alcohol is the adjustable reflux column. You may use your pure "vodka" like distillate as a base for distilling herbs or fruits or for making liqueurs.
Alternatively you may use it to produce your own high grade whiskey.
Continuous distillation is almost synonymous with the Coffey still developed by Aeneas Coffey for continuous operation.
A liquid wash is continuously fed into one column of the still and an equal amount exits continuously as distillate. Continuous distillation was a great advancement for professional distillers as it did not require repeated emptying and reloading of the still, also known as batch distillation, making it altogether less labor intensive and more efficient.
It is an uninterrupted distillation process where a continuous flow of distillate is collected as output. The raw material may be continuously fed into the still at one point or reloaded without interrupting the collection of distillate.
When performing a batch distillation using the simple distillation process the still needs to be continuously emptied of the spent material and refilled for each individual distillation run, interrupting the collection of the distillate. This is not so for continuous distillation as there are no interruptions in the distillation process.
A prime example of continuous distillation is the professional Armagnac Type Alembic Still with which high grade alcohol can be obtained in a single run which would normally require double or triple distillations using the simple distillation technique.
In the fractional continuous column (i.e the Coffey still) a continuous feed of an alcoholic solution such as wine is introduced in the column. As this solution comes into contact with the hot rising vapors, from the boiler, the more volatile components are stripped from the solution and rise up the column.
These alcohol vapors are drawn off and condensed after continuous rectifications (discussed further in the fractional distillation method). The more dense components or the less volatile components of the alcoholic solution stream back down into the boiler.
Fractional and continuous distillations methods are only descriptive of the various processes that take place and all may be incorporated into a single still design.
The graceful Charentais Alembic Still developed in France in the early 16th century to distill fine cognacs from Charentais wines is a semi continuous distillation process as you may allow for a continuous feed of wine for distillation.
This unit is comprised of an alembic pot attached to an onion shaped dome or preheater and condensing unit. The wine to be distilled in this case is preheated in the onion shaped dome by the flow of vapor from the swan neck tubing of the alembic pot as it flows in the direction towards the condenser unit.
The wine in the preheater in turn is transferred to the alembic pot via a connecting tube between the two for distillation, thus closing the circuit.
The Portuguese Arrastre de Vapour distilling system is yet another example of a semi continuous distillation design.
This system is very versatile and may be constructed according to the clients' specific needs. A two or more column system allows for continuous drawing off of distillate as while one column is emptied and refilled the distillation process continues in the second column.
Professional continuous distillation systems have obvious applications for large scale high grade alcohol production with unlimited potential for producing any number of alcoholic spirits.
Regardless of what still you use however, always remember ...
Keep on Distilling !!!