TH131348A - Simultaneous removal of water and scaletal isomerization of isobutanol on acidic catalysts. - Google Patents

Abstract

DC60(13/09/12) The present invention (in its first form) relates to a method for removing water and Simultaneous skeletal isomerization of isobutanol to form the corresponding olefin. which have the same number of carbons and which contain mixtures of nbutene and isobutene, said process which consists of a) introducing a stream (A) consisting of isobutanol, optionally water, optionally inert components into machine reactor,b)Exposing said current with the catalyst in said reactor at conditions that yield In order to remove water and skeleton, it isomerizes at least part of the isobutanol in order to Forms a mixture of nbutene and isobutene, c) Return of current B from the machine Such a reactor, which removes water, inert components, if any, and unconverted isobutanol, if any. In order to obtain a mixture of nbutene and isobutene in which the WHSV of isobutanol is At least 1h1 or so the temperature is from 200 degrees C to 600 degrees C and the catalyst is able to causing dehydration and skeletal isomerization of butene at the same time, the catalyst is Crystalline silicate of the groups FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL or TON, which has Si/Al higher than 10, or aluminum-removed crystalline silicates of groups FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL or TON which have Si/Al higher than 10, or Si The crystalline ligate obtained Phosphorus modification of the FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL groups or TON which has a Si/Al higher than 10, or a silicoaluminophosphate molecule of the AEL group or Alumina that has been added with silica, zirconium or titanium or fluorine has an advantage over current. (B) is sequentially separated in step d) in order to produce n-butene(N) stream and to remove it. A significant fraction of isobutene is selectively recycled along with current (A) to Reactor for dehydration/isomerization of step b) The present invention (in first embodiment) relates to a method for dehydration/isomerization of step b). Simultaneous skeletal isomerization of isobutanol to form the corresponding olefin. which have the same number of carbons and which contain mixtures of nbutene and isobutene, said process which consists of a) introducing a stream (A) consisting of isobutanol, optionally water, optionally inert components into machine reactor,b)Exposing said current with the catalyst in said reactor at conditions that yield In order to remove water and skeleton, it isomerizes at least part of the isobutanol in order to Forms a mixture of nbutene and isobutene, c) Return of current B from the machine Such a reactor, which removes water, inert components, if any, and unconverted isobitanol, if any. In order to obtain a mixture of nbutene and isobutene in which the WHSV of isobutanol is At least 1h1 or temperature is from 200°C to 600°C and the catalyst is able to causing dehydration and skeletal isomerization of butene at the same time, the catalyst is Crystalline silicate of the groups FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL or TON, which has Si/Al higher than 10, or aluminum-removed crystalline silicates of groups FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL or TON which have Si/Al higher than 10, or Si The crystalline ligate obtained Phosphorus modification of the FER, MWW, EUO, MFS, ZSM48, MTT, MFI, MEL groups or TON which has a Si/Al higher than 10, or a silicoaluminophosphate molecule of the AEL group or Alumina that has been added with silica, zirconium or titanium or fluorine has an advantage over current. (B) is sequentially separated in step d) in order to produce n-butene(N) stream and to remove it. A significant fraction of isobutene is selectively recycled along with current (A) to Reactor for dehydration/transomerization of step b)

Claims (1)

1.Processes for the simultaneous dehydration and scaletal isomerization of Isobutanol in order to make a significantly corresponding olefin, which has a number of carbon Is the same and contains a mixture of n-butene and iso-butene, process It consists of a) an inrush current (A) consisting of isobutanol, selective water, selectable inert component in the reactor, b) exposure to such current with a catalyst in the reactor. As mentioned, the resulting conditions to tag: