Permeation 4904656 221676440 2008-06-25T16:02:13Z Berland 623074 /* History */ fmt '''Permeation''', in [[physics]] and [[engineering]], is the penetration of a permeate (such as a [[liquid]], [[gas]], or [[vapor]]) through a solid, and is related to a materials [[intrinsic permeability]]. Permeability is tested by permeation measurement. == Description == The permeate always migrates to the lower concentration in three steps: # Sorption (at the interface): Gases, vapour or dissolved chemicals or suspended substances are adsorbed at the surface of the solid. # [[Diffusion]] (through the solid): The permeate penetrates the solid material through pores or molecular gaps. # [[Desorption]]: The adsorbate leaves the solid as a gas. == Related terms == * Permeate: The substance permeating through the solid. * Permeability: The grade of transmissibility of a solid, meaning how much penetrates in a specific time, dependent on the type of permeate, pressure, temperature, thickness of the solid and the area size. * Semipermeability: Property of a material to be permeable only for some substances and not for some others. * Permeation measurement: Method for the quantification of the permeability of a material for a specific substance. == History == === Abbé [[Jean-Antoine Nollet]] (physicist, 1700–1770) === Nollet tried to seal wine containers with a pigs bladder and stored them under water. After a while the bladder was bulged outwards. He remarked the high pressure that discharged after he pierced the bladder. Curious he made the experiment the other way round: He filled the container with water and stored it in wine. The result was a bulging inwards of the bladder. His notes about this experiment are the first scientific mention of permeation (later it will be called semipermeability). === [[Thomas Graham]] (chemist, 1805–1869) === Graham proved the dependency of the gas [[diffusion]] on the [[molecular weight]] with experiments. He developed [[Graham's law]] that is associated directly with that. === Richard Barrer (1910–1996) === Barrer built up the modern measurement techniques, '''"[[Barrer]]"''' and first used scientific methods for measuring permeation rates. == Permeation in everyday life == * [[Packaging]]: The permeability of the package (materials, seals, closures, etc) needs to be matched with the sensitivity of the package contents and the specified [[shelf life]]. Some packages must have nearly [[hermetic seal]]s while other can (and sometimes must) be selectively permeable. Knowledge about the exact permeation rates is therefore essential. * [[Tires]]: Air pressure in tyres should decrease as slowly as possible. Therefore it is good to know which gas permeates least through the rubber wall. * Insulating material: Water vapour permeation of insulating material is important as well as for submarine cables to protect the conductor from corrosion. * [[fuel]] systems: To meet legal regulations, e.g. CARB (California Air Resource Board) for Low Emission Vehicles, it is essential to use barrier materials for fuel hoses and tanks. == Permeation measurement == [[image:Permeation_sweep_gas.gif|thumb|Permeation measurement with sweep gas]] [[image:Permeationsmessung Rohre.jpg|thumb|Testing cell for pipes]] The Permeation of [[films]] and membranes can be measured with any gas or liquid. The method contains a central module which is separated by the test film: the testing gas is fed on the one side of the cell and the permeated gas is carried to the detector by a sweep gas. The diagram on the right shows a testing cell for films, normally made from metals like stainless steel. The Photo shows a testing cell for pipes made from glass, similar to a [[Liebig condenser]]. The testing medium (liquid or gas) is situated in the inner white pipe and the permeate is collected in the space between the pipe and the glass wall. It is transported by a sweep gas (connected to the upper and lower joint) to an analysing device. ==See also== * [[Moisture vapor transmission rate]] * [[Oxygen transmission rate]] * [[Carbon dioxide transmission rate]] * [[Hermetic seal]] ==Further reading== * Brody, A. L., and Marsh, K, S., "Encyclopedia of Packaging Technology", John Wiley & Sons, 1997, ISBN 0-471-06397-5 * Massey,L K, "Permeability Properties of Plastics and Elastomers", 2003, Andrew Publishing, ISBN 978-1-884207-97-6 * ASTM F1249-06 Standard Test Method for Water Vapor Transmission Rate Through Plastic Film and Sheeting Using a Modulated Infrared Sensor * ASTM E398-03 Standard Test Method for Water Vapor Transmission Rate of Sheet Materials Using Dynamic Relative Humidity Measurement * ASTM F2298-03 Standard Test Methods for Water Vapor Diffusion Resistance and Air Flow Resistance of Clothing Materials Using the Dynamic Moisture Permeation Cell [[Category:Physical quantity]] [[Category:Packaging]] [[de:Permeation]]