US2016008798A1PendingUtilityA1

Catalytic dehydration of alcohols using phase pure, calcined single- and multi-site heterogeneous catalysts

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Assignee: SIGNA CHEMISTRY INCPriority: Jan 23, 2009Filed: Mar 25, 2015Published: Jan 14, 2016
Est. expiryJan 23, 2029(~2.5 yrs left)· nominal 20-yr term from priority
B01J 29/84C01B 39/54C01B 37/08C07C 2529/84C07C 1/24C07C 2529/85B01J 29/85C01B 37/065Y02P20/52B01J 35/643
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Claims

Abstract

The disclosure describes a new class of isomorphously metal-substituted aluminophosphate materials with high phase purity that are capable of performing selective Brönsted acid catalyzed chemical transformations, such as transforming alcohols to olefins, with high conversions and selectivities using mild conditions. Isomorphous substitutions of functional metal ions for both the aluminum ions and the phosphorous ions were successful in various AlPO structures, along with multiple metal substitutions into a single aluminum site and/or a phosphorous site. This invention can be used towards the catalytic conversion of hydroxylated compounds of linear and/or branched moiety with the possibility of being substituted to their respective hydrocarbon products, preferably light olefins containing 2 to 10 carbon atoms, among other chemistries.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 . A process for preparing a substantially phase pure, calcined metal-substituted aluminophosphate, AlPO, wherein at least one aluminum (Al III ) site is substituted by a divalent metal ion (M II ) and/or at least one phosphorous (P V ) site is substituted by a tetravalent metal ion (M IV ) comprising the steps of:
 slowly heating an isomorphously, metal-substituted aluminophosphate catalyst product containing a structure directing agent within its crystalline structure under a flowing inert gas at a calcination temperature ranging between about 200° C. and about 1000° C.,   holding the isomorphously, metal-substituted aluminophosphate catalyst product under the flowing inert gas at the calcination temperature,   calcining the isomorphously, metal-substituted aluminophosphate catalyst product for a time of at least about 3 to about 24 hours to form a substantially phase pure, calcined metal-substituted aluminophosphate, and   slowly cooling the substantially phase pure, calcined metal-substituted aluminophosphate to room temperature.

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