Catalytic conversion of liquid phase citral and citronellal hydrogenations to menthols over metal-12- tungstophosphoric acid supported mesoporous clay catalysts

Catalytic conversion of liquid phase citral and citronellal hydrogenations to menthols over metal-12- tungstophosphoric acid supported mesoporous clay catalysts

In this work, we designed novel-based catalysts composed of metals and tungstophosphoric acid supported mesoporous clay through wetness impregnation and reduction methods for getting good activity and selectivity of menthols from catalytic hydrogenations of citral and citronellal. Clay was treated w...

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Veröffentlicht in:Biomass conversion and biorefinery 2023-10, Vol.13 (15), p.14023-14034
Hauptverfasser: Shah, Abdul Karim, Abro, Masroor Ahmed, Ahmed, Shoaib, Shah, Aqeel Ahmed, Iqbal, Arshad, Usto, Muhammad Azam, Bukhari, Syed Nizamuddin Shah, Maitlo, Ghulamullah, Jatoi, Abdul Sattar, Talpur, Mir Sajjad
Format: Artikel
Sprache:eng
Schlagworte:
Acids
Biotechnology
Catalysts
Catalytic activity
Catalytic converters
Citral
Citronellal
Clay
Conversion
Energy
Hydrogen reduction
Hydrogenation
Liquid phases
Moisture content
Nickel
Original Article
Palladium
Renewable and Green Energy
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container_end_page 14034
container_issue 15
container_start_page 14023
container_title Biomass conversion and biorefinery
container_volume 13
creator Shah, Abdul Karim
Abro, Masroor Ahmed
Ahmed, Shoaib
Shah, Aqeel Ahmed
Iqbal, Arshad
Usto, Muhammad Azam
Bukhari, Syed Nizamuddin Shah
Maitlo, Ghulamullah
Jatoi, Abdul Sattar
Talpur, Mir Sajjad
description In this work, we designed novel-based catalysts composed of metals and tungstophosphoric acid supported mesoporous clay through wetness impregnation and reduction methods for getting good activity and selectivity of menthols from catalytic hydrogenations of citral and citronellal. Clay was treated with 4 M HCl and then doped with 12-tungstophosphoric acid and Pd/Ni metals through wetness impregnation method. These catalysts were activated through hydrogen reduction method and applied in high-pressure hydrogenation reactions at optimum reaction conditions. Nickel-doped catalysts showed a good catalytic activity in liquid-phase citral hydrogenation and produced 56% menthols (e.g., selectivity). Similarly, Ni-doped and Pd-doped catalysts could produce 98% and 82% menthols yield/selectivity from citronellal hydrogenation with excellent catalytic activity (e.g., fast conversion), respectively. The catalytic activity and selectivity were connected with balanced metal–acid sites ratio (strong Lewis and medium Bronsted acid-sites) and the presence of mesopores. This multistage reaction was possible in the presence of strong Lewis and medium Brønsted acid sites along with metal active sites.
doi_str_mv 10.1007/s13399-022-02847-w
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subjects Acids
Biotechnology
Catalysts
Catalytic activity
Catalytic converters
Citral
Citronellal
Clay
Conversion
Energy
Hydrogen reduction
Hydrogenation
Liquid phases
Moisture content
Nickel
Original Article
Palladium
Renewable and Green Energy
title Catalytic conversion of liquid phase citral and citronellal hydrogenations to menthols over metal-12- tungstophosphoric acid supported mesoporous clay catalysts
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