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'''Reflux''' is a [[distillation]] technique involving the [[condensation]] of the distilled product [[vapor]]s and the return of a portion of the condensate to the distillation system from which it originated.
Reflux is widely used in large-scale, industrial [[continuous distillation]] columns as well as in [[laboratory]] distillation apparatus setups. It is also used in laboratories to supply heat to [[reaction]]s over a long period of time.
== Reflux in industrial distillation ==
{{Image|Simple Industrial Distillation Column.png|right|217px|Figure 1: Industrial distillation column with typical overhead reflux system.}}
The use of reflux<ref>{{cite book|author=Kister, Henry Z.| title=[[Distillation Design]]|edition=1st Edition|publisher=McGraw-Hill |year=1992|id=0070349096}}</ref><ref>{{cite book|author=Perry, Robert H. and Green, Don W.|title=[[Perry's Chemical Engineers' Handbook]]|edition=6th Edition|publisher=McGraw-Hill|year=1984| id=0070494797}}</ref> is widely practiced in industries that utilize large-scale distillation columns such as [[Petroleum refining processes|petroleum refineries]], [[petrochemical]] and [[chemical plant]]s, and [[natural gas processing]] plants.
As shown in the schematic diagram of  a typical industrial distillation column (Figure 1), reflux is the portion of the overhead liquid product from a distillation column that is returned to the upper part of the column.
Inside the column, the downflowing reflux liquid provides cooling and condensation of the upflowing vapors thereby increasing the efficacy of the distillation column. The more reflux is provided for a given number of [[Theoretical plate|distillation plates]], the better is the column's separation of lower boiling materials from higher boiling materials. Conversely, for a given desired separation, the more reflux is provided, the fewer distillation plates are required.
== Reflux in laboratory distillation ==
{{Image|Distillation reflux (laboratory).png|right|230px|Figure 2: Laboratory distillation apparatus setup.}}
The apparatus shown in Figure 2 represents a [[batch distillation]] as opposed to a [[continuous distillation]]. The liquid feed mixture to be distilled is placed into the round-bottomed flask along with a few [[Boiling chip|anti-bumping granules]], and a [[fractionating column]] is fitted into the top. As the mixture is heated and boils, vapor rises up the column. Some of the vapor cools and  [[Condensation|condenses]] on the glass platforms (known as plates or trays) inside the column and runs back down into the liquid below, thereby refluxing the upflowing distillate vapor. The hottest tray is at the bottom of the column and the coolest tray is at the top. At steady state conditions, the vapor and liquid on each tray is at [[Vapor-liquid equilibrium|equilibrium]]. Only the most volatile of the vapors stays in [[gas]]eous form all the way to the top. The vapor at the top of the column then passes into the water-cooled [[Condenser (heat transfer)|condenser]], where it condenses into a liquid. The process continues until all of the most [[volatile]] components in the liquid feed boil out of the mixture.
== Reflux to supply heat to chemical reactions ==
{{Image|Total Reflux (laboratory).png|right|188px|Laboratory distillation setup for total reflux.}}
Figure 3 depicts a laboratory apparatus setup for supplying heat to a chemical reaction. A liquid reaction mixture is placed in a flask connected to a water-cooled vertical condenser, such that any vapors given off are condensed to a liquid, and drop back into the reaction vessel. In other words, the depicted setup provides total reflux.
The flask is heated for the entire course of the reaction and the purpose is to thermally accelerate the reaction by conducting it at an elevated temperature.
The advantage of this technique is that it can be left for a long period of time without fear of the reaction vessel boiling dry since any evolved vapor is condensed and returned to the reaction flask.  The constant boiling action also serves to continuously mix the liquid reactant mixture, although a magnetic stirring rod mechanism is often used to achieve a uniform solution.
As shown in the diagram, the reaction flask is placed inside an oil bath. A thermally stable bath of [[silicone oil]] is generally used  rather than water which evaporates too readily to be useful for lengthy reactions. Using an oil bath also allows higher temperatures to be achieved than could be done with a water bath. If even higher temperatures are required, the oil bath can be replaced with a [[sand bath]].
==References==
<references/>
*[[Batch distillation]] (Related Links)
*[[Batch distillation]] (Related Links)


* [http://lorien.ncl.ac.uk/ming/distil/distileqp.htm Distillation column components] (External Links)
* [http://lorien.ncl.ac.uk/ming/distil/distileqp.htm Distillation column components] (External Links)

Revision as of 01:49, 17 November 2008

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