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Statements

Subject Item
n2:RIV%2F62243136%3A_____%2F14%3AMPO22CL%21RIV15-MPO-62243136
rdf:type
skos:Concept n19:Vysledek
rdfs:seeAlso
http://link.springer.com/article/10.2478%2Fs11532-013-0354-9
dcterms:description
Due to the growing restrictions on the content of aromatic compounds by the European legislation in motor fuels and at the same time the need for higher quality fuels (minimizing the presence of contaminants and hazardous products to health), it has become necessary to increase processes that can maximize the number of octane in gasoline. This manuscript is aimed to provide current trends and processes related to isomerization, alkylation and etherification processes to improve gasolines as final product. Examples provided include the isomerization of light n-alkanes into iso-alkanes or the alkylation, in which the preferred olefin is the methylbutilene and i-butane to produce a high octane number gasoline. Currently, there are two main commercial processes for alkylation processes (hydrofluoric and sulfuric acid technologies). Other incoming suitable process is the etherification of iso-olefins to bio-ethers (the European Union have as a minimum target of biofuel content in fuels of 10% in 2020). The refiners are recently investing in the production of bio-ETBE (ethyl tertiary butyl ether) and other products as additives using bio-ethanol and olefins. Commercial and new potential catalysts for all these processes are currently being used and under investigation. Due to the growing restrictions on the content of aromatic compounds by the European legislation in motor fuels and at the same time the need for higher quality fuels (minimizing the presence of contaminants and hazardous products to health), it has become necessary to increase processes that can maximize the number of octane in gasoline. This manuscript is aimed to provide current trends and processes related to isomerization, alkylation and etherification processes to improve gasolines as final product. Examples provided include the isomerization of light n-alkanes into iso-alkanes or the alkylation, in which the preferred olefin is the methylbutilene and i-butane to produce a high octane number gasoline. Currently, there are two main commercial processes for alkylation processes (hydrofluoric and sulfuric acid technologies). Other incoming suitable process is the etherification of iso-olefins to bio-ethers (the European Union have as a minimum target of biofuel content in fuels of 10% in 2020). The refiners are recently investing in the production of bio-ETBE (ethyl tertiary butyl ether) and other products as additives using bio-ethanol and olefins. Commercial and new potential catalysts for all these processes are currently being used and under investigation. Due to the growing restrictions on the content of aromatic compounds by the European legislation in motor fuels and at the same time the need for higher quality fuels (minimizing the presence of contaminants and hazardous products to health), it has become necessary to increase processes that can maximize the number of octane in gasoline. This manuscript is aimed to provide current trends and processes related to isomerization, alkylation and etherification processes to improve gasolines as final product. Examples provided include the isomerization of light n-alkanes into iso-alkanes or the alkylation, in which the preferred olefin is the methylbutilene and i-butane to produce a high octane number gasoline. Currently, there are two main commercial processes for alkylation processes (hydrofluoric and sulfuric acid technologies). Other incoming suitable process is the etherification of iso-olefins to bio-ethers (the European Union have as a minimum target of biofuel content in fuels of 10% in 2020). The refiners are recently investing in the production of bio-ETBE (ethyl tertiary butyl ether) and other products as additives using bio-ethanol and olefins. Commercial and new potential catalysts for all these processes are currently being used and under investigation.
dcterms:title
Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality
skos:prefLabel
Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality Current uses and trends in catalytic isomerization, alkylation and etherification processes to improve gasoline quality
skos:notation
RIV/62243136:_____/14:MPO22CL!RIV15-MPO-62243136
n5:aktivita
n16:P
n5:aktivity
P(FR-TI3/316)
n5:cisloPeriodika
January 2014
n5:dodaniDat
n10:2015
n5:domaciTvurceVysledku
n11:5082471 n11:7219113 n11:5878799 n11:8725551
n5:druhVysledku
n12:J
n5:duvernostUdaju
n6:S
n5:entitaPredkladatele
n17:predkladatel
n5:idSjednocenehoVysledku
9455
n5:idVysledku
RIV/62243136:_____/14:MPO22CL
n5:jazykVysledku
n18:cze
n5:klicovaSlova
Gasoline, Isomerization, Alkylation, Etherification, Octane number
n5:klicoveSlovo
n15:Etherification n15:Octane%20number n15:Alkylation n15:Gasoline n15:Isomerization
n5:kodStatuVydavatele
AT - Rakouská republika
n5:kontrolniKodProRIV
[B82729135DF4]
n5:nazevZdroje
Central European Journal of Chemistry
n5:obor
n14:CI
n5:pocetDomacichTvurcuVysledku
4
n5:pocetTvurcuVysledku
4
n5:projekt
n8:FR-TI3%2F316
n5:rokUplatneniVysledku
n10:2014
n5:svazekPeriodika
12
n5:tvurceVysledku
Zbuzek, Michal Jíša, Petr Hidalgo Herrador, José Miguel Černý, Radek
n5:wos
000327520400017
s:issn
1644-3624
s:numberOfPages
13
n9:doi
10.2478/s11532-013-0354-9