2014
DOI: 10.1016/j.apcata.2014.05.006
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Gas phase hydroxylation of benzene with air–ammonia mixture over copper-based phosphate catalysts

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Cited by 5 publications
(6 citation statements)
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“…Generally, the catalytic oxidation of benzene to phenol in the gas phase is more favorable for simplifying the separation of products. The gas‐phase oxidation is usually conducted in a fixed‐bed reactor at middle temperature over transition metal oxide catalysts like vanadium oxide, iron oxide, and cobalt oxide , . Oxygen, air, or N 2 O is typically employed as oxidant , .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Generally, the catalytic oxidation of benzene to phenol in the gas phase is more favorable for simplifying the separation of products. The gas‐phase oxidation is usually conducted in a fixed‐bed reactor at middle temperature over transition metal oxide catalysts like vanadium oxide, iron oxide, and cobalt oxide , . Oxygen, air, or N 2 O is typically employed as oxidant , .…”
Section: Introductionmentioning
confidence: 99%
“…The gas‐phase oxidation is usually conducted in a fixed‐bed reactor at middle temperature over transition metal oxide catalysts like vanadium oxide, iron oxide, and cobalt oxide , . Oxygen, air, or N 2 O is typically employed as oxidant , . However, the gas‐phase oxidation easily leads to the overoxidation of benzene to form CO 2 and other by‐products like catechol and hydroquinone and, as a result, reduces the yield of phenol .…”
Section: Introductionmentioning
confidence: 99%
“…Hronec and coworkers utilized stearyl amine polyethylene glycol ether surfactant to prepare a copper-calcium phosphate precipitate (68) in the form of a fine spongelike structure. [130] Thus, the synthesized material was tested in gas-phase benzene oxidation with air-ammonia mixture as an oxidant in a fix-bed reactor at 450 C, with a phenol yield of 4.2%.…”
Section: Heterogeneous Catalystsmentioning
confidence: 99%
“…World production exceeded 11 million tons in 2009 [3]. Presently, most phenol is produced industrially through the cumene process [1,2,[4][5][6][7] and toluene oxidation [2,4,5,7], which accounts for more than 90% of the world phenol production. The cumene process consists of three reactions; alkylation of benzene by propylene, oxidation of cumene to cumene hydroperoxide, and decomposition of cumene hydroperoxide to phenol and acetone.…”
Section: Introductionmentioning
confidence: 99%
“…The cumene process has the main advantage of using two relatively inexpensive starting materials, benzene and propylene, which are subsequently converted into two more useful products, phenol and acetone. In spite of these positive aspects, the cumene process has some disadvantages such as a high environmental impact [3,5], an explosive intermediary compound (cumene hydroperoxide) [5,10], use of a corrosive catalyst [5], production of unwanted impurities [5,7]. It is a multi-step process, which makes it hard to obtain high phenol yields with respect to the amount of benzene used and requires high energy consumption due to its characteristic multi-step process [11].…”
Section: Introductionmentioning
confidence: 99%