Separation process

A separation process is a method that converts a mixture or a solution of chemical substances into two or more distinct product mixtures,^[1] a scientific process of separating two or more substances in order to obtain purity. At least one product mixture from the separation is enriched in one or more of the source mixture's constituents. In some cases, a separation may fully divide the mixture into pure constituents. Separations exploit differences in chemical properties or physical properties (such as size, shape, charge, mass, density, or chemical affinity) between the constituents of a mixture.

Processes are often classified according to the particular properties they exploit to achieve separation. If no single difference can be used to accomplish the desired separation, multiple operations can often be combined to achieve the desired end. Different processes are also sometimes categorized by their separating agent, i.e. mass separating agents or energy separating agents.^[2] Mass separating agents operate by addition of material to induce separation like the addition of an anti-solvent to induce precipitation. In contrast, energy-based separations cause separation by heating or cooling as in distillation.

Elements and compounds in nature are impure to some degree. Often these raw materials must go through a separation before they can be put to productive use, making separation techniques essential for the modern industrial economy.

The purpose of separation may be:

analytical: to identify the size of each fraction of a mixture is attributable to each component without attempting to harvest the fractions.
preparative: to "prepare" fractions for input into processes that benefit when components are separated.

Separations may be performed on a small scale, as in a laboratory for analytical purposes, or on a large scale, as in a chemical plant.

Complete and incomplete separation

Some types of separation require complete purification of a certain component. An example is the production of aluminum metal from bauxite ore through electrolysis refining. In contrast, an incomplete separation process may specify an output to consist of a mixture instead of a single pure component. A good example of an incomplete separation technique is oil refining. Crude oil occurs naturally as a mixture of various hydrocarbons and impurities. The refining process splits this mixture into other, more valuable mixtures such as natural gas, gasoline and chemical feedstocks, none of which are pure substances, but each of which must be separated from the raw crude.^{[citation needed]}

In both complete separation and incomplete separation, a series or cascade of separations may be necessary to obtain the desired end products. In the case of oil refining, crude is subjected to a long series of individual distillation steps, each of which produces a different product or intermediate.^{[citation needed]}

List of separation techniques

Centrifugation and cyclonic separation, separates based on density differences
Chelation
Chromatography separates dissolved substances by different interaction with (i.e., travel through) a material.
- High-performance liquid chromatography (HPLC)
- Thin-layer chromatography (TLC)
- Countercurrent chromatography (CCC)
- Droplet countercurrent chromatography (DCC)
- Paper chromatography
- Ion chromatography
- Size-exclusion chromatography (SEC)
- Affinity chromatography
- Centrifugal partition chromatography
- Gas chromatography and Inverse gas chromatography
Crystallization
Decantation
Demister (vapor), removes liquid droplets from gas streams
Distillation, used for mixtures of liquids with different boiling points
Drying, removes liquid from a solid by vaporization or evaporation
Electrophoresis, separates organic molecules based on their different interaction with a gel under an electric potential (i.e., different travel)
- Capillary electrophoresis
Electrostatic separation, works on the principle of corona discharge, where two plates are placed close together and high voltage is applied. This high voltage is used to separate the ionized particles.
Elutriation
Evaporation
Extraction
- Leaching
- Liquid–liquid extraction
- Solid phase extraction
- Supercritical fluid extraction
- Subcritical fluid extraction
Field flow fractionation
Filtration – Mesh, bag and paper filters are used to remove large particulates suspended in fluids (e.g., fly ash) while membrane processes including microfiltration, ultrafiltration, nanofiltration, reverse osmosis, dialysis (biochemistry) utilising synthetic membranes, separates micrometre-sized or smaller species
Flocculation, separates a solid from a liquid in a colloid, by use of a flocculant, which promotes the solid clumping into flocs
Fractional distillation
Fractional freezing
Magnetic separation
Oil-water separation, gravimetrically separates suspended oil droplets from waste water in oil refineries, petrochemical and chemical plants, natural gas processing plants and similar industries
Precipitation
Recrystallization
Scrubbing, separation of particulates (solids) or gases from a gas stream using liquid.
Sedimentation, separates using vocal density pressure differences
- Gravity separation
Sieving
Sponge, adhesion of atoms, ions or molecules of gas, liquid, or dissolved solids to a surface
Stripping
Sublimation
Vapor–liquid separation, separates by gravity, based on the Souders–Brown equation
Winnowing
Zone refining

References

^ Wilson, Ian D.; Adlard, Edward R.; Cooke, Michael; et al., eds. (2000). Encyclopedia of separation science. San Diego: Academic Press. ISBN 978-0-12-226770-3.
^ Seader, J. D.; Henley, Ernest J. (2006). Separation process principles (2nd ed.). Hoboken, N.J: Wiley. ISBN 978-0-471-46480-8.

External links

Separation of Mixtures Using Different Techniques Archived 2013-06-05 at the Wayback Machine, instructions for performing classroom experiments
Separation of Components of a Mixture Archived 2013-06-05 at the Wayback Machine, instructions for performing classroom experiments

[1] Wilson, Ian D.; Adlard, Edward R.; Cooke, Michael; et al., eds. (2000). Encyclopedia of separation science. San Diego: Academic Press. ISBN 978-0-12-226770-3.

[2] Seader, J. D.; Henley, Ernest J. (2006). Separation process principles (2nd ed.). Hoboken, N.J: Wiley. ISBN 978-0-471-46480-8.

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v t e Separation processes
Processes	Absorption Acid–base extraction Adsorption Chromatography Cross-flow filtration Crystallization Cyclonic separation Decantation Dialysis Dissolved air flotation Distillation Drying Electrochromatography Electrofiltration Extraction Filtration Flocculation Froth flotation Gravity separation Leaching Liquid–liquid extraction Electroextraction Microfiltration Osmosis Precipitation Recrystallization Reverse osmosis Sedimentation Solid-phase extraction Sublimation Ultrafiltration
Devices	API oil–water separator Belt filter Centrifuge Depth filter Electrostatic precipitator Evaporator Filter press Fractionating column Leachate Mixer-settler Protein skimmer Rapid sand filter Rotary vacuum-drum filter Scrubber Spinning cone Still Sublimation apparatus Vacuum ceramic filter
Multiphase systems	Aqueous two-phase system Azeotrope Eutectic
Concepts	Unit operation

v t e Analytical chemistry
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Techniques	Calorimetry Chromatography Electroanalytical methods Gravimetric analysis Ion mobility spectrometry Mass spectrometry Spectroscopy Titration
Sampling	Coning and quartering Dilution Dissolution Filtration Masking Pulverization Sample preparation Separation process Sub-sampling
Calibration	Chemometrics Calibration curve Matrix effect Internal standard Standard addition Isotope dilution
Prominent publications	Analyst Analytica Chimica Acta Analytical and Bioanalytical Chemistry Analytical Chemistry Analytical Biochemistry
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Complete and incomplete separation

List of separation techniques

See also

References

Further reading

External links