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Steam distillation is a special type of distillation (a separation process) for temperature sensitive materials like natural aromatic compounds.
Many organic compounds tend to decompose at high sustained temperatures. Separation by normal distillation would then not be an option, so water or steam is introduced into the distillation apparatus. By adding water or steam, the boiling points of the compounds are depressed, allowing them to evaporate at lower temperatures, preferably below the temperatures at which the deterioration of the material becomes appreciable. If the substances to be distilled are very sensitive to heat, steam distillation can also be combined with vacuum distillation. After distillation the vapors are condensed as usual, usually yielding a two-phase system of water and the organic compounds, allowing for simple separation.
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When a mixture of two practically immiscible liquids is heated while being agitated to expose the surfaces of both the liquids to the vapor phase, each constituent independently exerts its own vapor pressure as a function of temperature as if the other constituent were not present. Consequently, the vapor pressure of the whole system increases. Boiling begins when the sum of the partial pressures of the two immiscible liquids just exceeds the atmospheric pressure (approximately 101 kPa at sea level). In this way, many organic compounds insoluble in water can be purified at a temperature well below the point at which decomposition occurs. For example, the boiling point of bromobenzene is 156 °C and the boiling point of water is 100 °C, but a mixture of the two boils at 95 °C. Thus, bromobenzene can be easily distilled at a temperature 61 C° below its normal boiling point.
Steam distillation is employed in the manufacture of essential oils, for instance, perfumes. In this method, steam is passed through the plant material containing the desired oils. It is also employed in the synthetic procedures of complex organic compounds. Eucalyptus oil and orange oil are obtained by this method on the industrial scale.
Steam distillation is also widely used in petroleum refineries and petrochemical plants where it is commonly referred to as "steam stripping".Beychok, M.R., The Design of Sour Water Strippers, Individual Paper 61, Proceedings of Seventh World Petroleum Congress, Mexico City, April 1967Kister, Henry Z. (1992). Distillation Design, 1st Edition, McGraw-Hill. ISBN 0-07-034909-6. Sour Water Steam Stripper Schematic Diagram
Other industrial uses of steam distillation include the production consumer food products such as sprayable or aerosolized condiments such as sprayable mayonnaise.Purves, ER. (1972), Method for producing mayonnaise. U.S. Patent No. 3,804,957. Washington, DC: U.S. Patent and Trademark Office.
| Distillation | |
|---|---|
| Principles | Raoult\'s law · Dalton\'s law · Reflux · Fenske equation · McCabe-Thiele method · Theoretical plate · Partial pressure · Vapor-liquid equilibrium |
| Industrial processes | Batch distillation · Continuous distillation · Fractionating column · Spinning cone |
| Laboratory methods | Kugelrohr · Rotary evaporator · Spinning band distillation |
| Techniques | Azeotropic · Destructive · Dry · Extractive · Fractional · Reactive · Salt-effect · Steam-based · Vacuum-based |
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