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4458700 
Journal Article 
Process Improvements in Methanol Oxidation to Formaldehyde: Application and Catalyst Development 
Andersson, A; Holmberg, J; Haggblad, R 
2016 
Topics in Catalysis
ISSN: 1022-5528
EISSN: 1572-9028 
59 
17-18 
1589-1599 
WOS:000388825200014 
Compared with oxide catalysts for many other selective oxidation and ammoxidation processes, the commercial iron molybdate type catalyst for the oxidation of methanol to formaldehyde has an outstanding performance giving a selectivity in the range 92-95 % to formaldehyde at almost complete methanol conversion. In this presentation an overview is given describing the historical and present developments that have made possible a fourfold increase of the productivity per reactor tube and day since the late 1950s, which has been achieved without any change of the basic chemical composition of the catalyst. The effects on steam production and power consumption are described as well. Moreover, some results on novel Fe-(V)-Mo-O catalysts with spinel-type structures are described, showing good stability in methanol oxidation. Compared with conventional catalysts, the spinel-type catalysts have a larger number of reoxidation sites (Fe) per active Mo atom and allow the metals to change valence retaining the structure type. 
Methanol oxidation; Historical developments; Process intensification; Molybdate catalysts; Vanadate catalysts; Spinel type catalysts 
IRIS
• Formaldehyde [archived]
     HAWC
          LHP cancer mechanistic
               Excluded
     Search Update 2016-2017
          LHP MOA
               WoS
     2017-2018 LitSearch
          LHP MOA
               Search Update
               WOS
• IRIS Formaldehyde (Inhalation) [Final 2024]
     Literature Indexing
          WoS
          2021 Systematic Evidence Map
     Literature Identification
          Mechanistic Studies of Lymphohematopoietic Cancer, Genotoxicity
               Excluded