Matches in DBpedia 2016-04 for { <http://wikidata.dbpedia.org/resource/Q2601751> ?p ?o }
Showing triples 1 to 44 of
44
with 100 triples per page.
- Q2601751 subject Q7138878.
- Q2601751 abstract "Capillary condensation is the "process by which multilayer adsorption from the vapor [phase] into a porous medium proceeds to the point at which pore spaces become filled with condensed liquid from the vapor [phase]." The unique aspect of capillary condensation is that vapor condensation occurs below the saturation vapor pressure, Psat, of the pure liquid. This result is due to an increased number of van der Waals interactions between vapor phase molecules inside the confined space of a capillary. Once condensation has occurred, a meniscus immediately forms at the liquid-vapor interface which allows for equilibrium below the saturation vapor pressure. Meniscus formation is dependent on the surface tension of the liquid and the shape of the capillary, as shown by the Young-Laplace equation. As with any liquid-vapor interface involving a menisci, the Kelvin equation provides a relation for the difference between the equilibrium vapor pressure and the saturation vapor pressure. A capillary does not necessarily have to be a tubular, closed shape, but can be any confined space with respect to its surroundings.Capillary condensation is an important factor in both naturally occurring and synthetic porous structures. In these structures, scientists use the concept of capillary condensation to determine pore size distribution and surface area though adsorption isotherms. Synthetic applications such as sintering of materials are also highly dependent on bridging effects resulting from capillary condensation. In contrast to the advantages of capillary condensation, it can also cause many problems in materials science applications such as atomic-force microscopy and Microelectromechanical Systems.".
- Q2601751 thumbnail Porous_medium.png?width=300.
- Q2601751 wikiPageExternalLink Ads-prev.htm.
- Q2601751 wikiPageExternalLink derive.html.
- Q2601751 wikiPageWikiLink Q10273440.
- Q2601751 wikiPageWikiLink Q1121115.
- Q2601751 wikiPageWikiLink Q132814.
- Q2601751 wikiPageWikiLink Q1379273.
- Q2601751 wikiPageWikiLink Q1436003.
- Q2601751 wikiPageWikiLink Q166583.
- Q2601751 wikiPageWikiLink Q170749.
- Q2601751 wikiPageWikiLink Q175561.
- Q2601751 wikiPageWikiLink Q180254.
- Q2601751 wikiPageWikiLink Q180600.
- Q2601751 wikiPageWikiLink Q181780.
- Q2601751 wikiPageWikiLink Q182333.
- Q2601751 wikiPageWikiLink Q186693.
- Q2601751 wikiPageWikiLink Q188603.
- Q2601751 wikiPageWikiLink Q189627.
- Q2601751 wikiPageWikiLink Q190837.
- Q2601751 wikiPageWikiLink Q21072658.
- Q2601751 wikiPageWikiLink Q2143425.
- Q2601751 wikiPageWikiLink Q214881.
- Q2601751 wikiPageWikiLink Q2661322.
- Q2601751 wikiPageWikiLink Q2893037.
- Q2601751 wikiPageWikiLink Q3271208.
- Q2601751 wikiPageWikiLink Q4390154.
- Q2601751 wikiPageWikiLink Q45621.
- Q2601751 wikiPageWikiLink Q48350.
- Q2601751 wikiPageWikiLink Q487112.
- Q2601751 wikiPageWikiLink Q49295.
- Q2601751 wikiPageWikiLink Q5279666.
- Q2601751 wikiPageWikiLink Q7138878.
- Q2601751 wikiPageWikiLink Q795838.
- Q2601751 wikiPageWikiLink Q817136.
- Q2601751 wikiPageWikiLink Q844613.
- Q2601751 wikiPageWikiLink Q898732.
- Q2601751 wikiPageWikiLink Q899239.
- Q2601751 wikiPageWikiLink Q900598.
- Q2601751 wikiPageWikiLink Q905258.
- Q2601751 comment "Capillary condensation is the "process by which multilayer adsorption from the vapor [phase] into a porous medium proceeds to the point at which pore spaces become filled with condensed liquid from the vapor [phase]." The unique aspect of capillary condensation is that vapor condensation occurs below the saturation vapor pressure, Psat, of the pure liquid.".
- Q2601751 label "Capillary condensation".
- Q2601751 depiction Porous_medium.png.