About: Membrane gas separation

An Entity of Type: Use100947128, from Named Graph: http://dbpedia.org, within Data Space: dbpedia.org

Gas mixtures can be effectively separated by synthetic membranes made from polymers such as polyamide or cellulose acetate, or from ceramic materials. While polymeric membranes are economical and technologically useful, they are bounded by their performance, known as the Robeson limit (permeability must be sacrificed for selectivity and vice versa). This limit affects polymeric membrane use for CO2 separation from flue gas streams, since mass transport becomes limiting and CO2 separation becomes very expensive due to low permeabilities. Membrane materials have expanded into the realm of silica, zeolites, metal-organic frameworks, and perovskites due to their strong thermal and chemical resistance as well as high tunability (ability to be modified and functionalized), leading to increased p

Property	Value
dbo:abstract	Gas mixtures can be effectively separated by synthetic membranes made from polymers such as polyamide or cellulose acetate, or from ceramic materials. While polymeric membranes are economical and technologically useful, they are bounded by their performance, known as the Robeson limit (permeability must be sacrificed for selectivity and vice versa). This limit affects polymeric membrane use for CO2 separation from flue gas streams, since mass transport becomes limiting and CO2 separation becomes very expensive due to low permeabilities. Membrane materials have expanded into the realm of silica, zeolites, metal-organic frameworks, and perovskites due to their strong thermal and chemical resistance as well as high tunability (ability to be modified and functionalized), leading to increased permeability and selectivity. Membranes can be used for separating gas mixtures where they act as a permeable barrier through which different compounds move across at different rates or not move at all. The membranes can be nanoporous, polymer, etc. and the gas molecules penetrate according to their size, diffusivity, or solubility. (en) La separazione di gas tramite membrane è un processo elettrochimico che prevede la separazione dei gas dagli altri gas presenti in soluzione senza ricorrere a condensatori o ad alte pressioni. (it)
dbo:thumbnail	wiki-commons:Special:FilePath/Flux_distribution_inside_the_fiber.jpg?width=300
dbo:wikiPageExternalLink	http://america.iza-structure.org/IZA-SC/framework.php%3FSTC=DDR http://www.acsmaterial.com/sapo-250.html
dbo:wikiPageID	1569089 (xsd:integer)
dbo:wikiPageInterLanguageLink	dbpedia-de:Gastrennung
dbo:wikiPageLength	44526 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1106091305 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Carbon_Dioxide dbr:Carbon_capture_and_storage dbr:Carbon_dioxide dbr:Enhanced_oil_recovery dbr:Membrane dbr:Nitrogen dbr:Mesoporous_material dbr:Hydrogen dbr:Hydrogen_sulfide dbr:Permeate dbr:Perovskite dbr:Underwater_diving dbr:University_of_Texas_at_Austin dbr:Inerting_system dbr:Oil_refinery dbr:Semipermeable_membrane dbr:Metal-organic_framework dbc:Membrane_technology dbr:Chemical_potential dbr:Silanol dbr:Silicon_dioxide dbr:Henry's_law dbr:Polyamide dbr:Polyimide dbr:Transition_metal dbr:Mass_flux dbc:Separation_processes dbr:Haber_process dbr:Lanthanide dbr:Zeolitic_imidazolate_framework dbr:Nitrox dbr:Nitrogen_generator dbr:Alkaline_earth_metal dbr:Amine dbr:Ammonia dbr:Air_separation dbr:Darcy's_law dbr:Aluminosilicate dbr:Fick's_laws_of_diffusion dbr:Oxygen_concentrator dbr:Palladium dbr:Carbamate dbr:Carbon_dioxide_scrubber dbr:Cellulose_acetate dbr:Diffusion dbr:Fossil_fuel dbr:Knudsen_diffusion dbr:Water_vapor dbr:Mass_diffusivity dbr:Natural_gas dbr:Quadrupole dbr:Countercurrent_exchange dbc:Gas_technologies dbc:Industrial_gases dbr:Adsorption dbr:Biogas dbr:Sulfur_dioxide dbr:Piperazine dbr:Polydimethylsiloxane dbr:Polyethylene dbr:Ideal_gas_law dbr:Methane dbr:Reactivity–selectivity_principle dbr:Volatility_(chemistry) dbr:Zeolite dbr:Natural-gas_processing dbr:Molecular_sieve dbr:Ullage dbr:Permeation dbr:Oxygen_plant dbr:Synthetic_membranes dbr:Polymeric_membranes dbr:Polysulphone dbr:File:Zeolite-ZSM-5-vdW.png dbr:File:CMR1.PNG dbr:File:Flux_distribution_inside_the_fiber.jpg dbr:File:Mechanisms_of_transport_in_membranes.jpg dbr:File:Membrane_separation_process.jpg dbr:File:Microscopic_model_of_a_nanoporous_membrane.jpg
dbp:wikiPageUsesTemplate	dbt:Annotated_link dbt:Cite_book dbt:Further dbt:Reflist dbt:Short_description dbt:Underwater_diving dbt:When dbt:Fuel_Transport
dcterms:subject	dbc:Membrane_technology dbc:Separation_processes dbc:Gas_technologies dbc:Industrial_gases
rdf:type	yago:WikicatSeparationProcesses yago:Abstraction100002137 yago:Act100030358 yago:Activity100407535 yago:Application100949134 yago:Event100029378 yago:Occupation100582388 yago:Procedure101023820 yago:Profession100609953 yago:PsychologicalFeature100023100 yago:WikicatGasTechnologies yago:YagoPermanentlyLocatedEntity yago:Technology100949619 yago:Use100947128
rdfs:comment	La separazione di gas tramite membrane è un processo elettrochimico che prevede la separazione dei gas dagli altri gas presenti in soluzione senza ricorrere a condensatori o ad alte pressioni. (it) Gas mixtures can be effectively separated by synthetic membranes made from polymers such as polyamide or cellulose acetate, or from ceramic materials. While polymeric membranes are economical and technologically useful, they are bounded by their performance, known as the Robeson limit (permeability must be sacrificed for selectivity and vice versa). This limit affects polymeric membrane use for CO2 separation from flue gas streams, since mass transport becomes limiting and CO2 separation becomes very expensive due to low permeabilities. Membrane materials have expanded into the realm of silica, zeolites, metal-organic frameworks, and perovskites due to their strong thermal and chemical resistance as well as high tunability (ability to be modified and functionalized), leading to increased p (en)
rdfs:label	Separazione di gas tramite membrane (it) Membrane gas separation (en)
owl:sameAs	freebase:Membrane gas separation yago-res:Membrane gas separation wikidata:Membrane gas separation dbpedia-it:Membrane gas separation https://global.dbpedia.org/id/4k9fF
prov:wasDerivedFrom	wikipedia-en:Membrane_gas_separation?oldid=1106091305&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Zeolite-ZSM-5-vdW.png wiki-commons:Special:FilePath/CMR1.png wiki-commons:Special:FilePath/Flux_distribution_inside_the_fiber.jpg wiki-commons:Special:FilePath/Mechanisms_of_transport_in_membranes.jpg wiki-commons:Special:FilePath/Membrane_separation_process.jpg wiki-commons:Special:FilePath/Microscopic_model_of_a_nanoporous_membrane.jpg
foaf:isPrimaryTopicOf	wikipedia-en:Membrane_gas_separation
is dbo:wikiPageRedirects of	dbr:Membrane_method_of_gas_concentration dbr:Membrane_method
is dbo:wikiPageWikiLink of	dbr:Carbon_capture_and_storage dbr:Peter_Budd dbr:Industrial_gas dbr:Inerting_system dbr:Membrane_method_of_gas_concentration dbr:Gas_blending dbr:Linde_plc dbr:Combined_cycle_power_plant dbr:Zeolitic_imidazolate_framework dbr:Nitrox dbr:Air_separation dbr:Oxygen_concentrator dbr:Carbon_dioxide_scrubber dbr:Hydrogen_purifier dbr:Poly(p-phenylene_oxide) dbr:Ceramic_membrane dbr:Ultrafiltration dbr:Membrane_method dbr:Polymers_of_intrinsic_microporosity
is rdfs:seeAlso of	dbr:Compressed_air_dryer
is foaf:primaryTopic of	wikipedia-en:Membrane_gas_separation