Extraction of rhodium from supported liquid-phase hydroformylation catalysts with supercritical carbon dioxide

Mahtab Madani; Leonhard Schill; Blete Hulaj; Jakob Willner; Andreas Limbeck; Katharina Bica-Schröder; Rasmus Fehrmann; Anders Riisager

doi:10.1016/j.jcou.2024.102968

Extraction of rhodium from supported liquid-phase hydroformylation catalysts with supercritical carbon dioxide

Mahtab Madani, Leonhard Schill, Blete Hulaj, Jakob Willner, Andreas Limbeck, Katharina Bica-Schröder, Rasmus Fehrmann, Anders Riisager^*

^*Corresponding author for this work

Department of Chemistry

Vienna University of Technology

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

The continuous extraction of the rhodium inventory in supported liquid-phase (SLP) catalytic materials utilized in the hydroformylation (HyFo) of 1-butene was investigated by supercritical carbon dioxide (scCO₂). Optimization of extraction efficiency involved varying parameters such as temperature (90 and 120 °C), pressure (10, 20 and 30 MPa), and the addition of methanol as a polar co-feed to the extraction medium (0–20 vol%). The results underscored the critical role of methanol in facilitating extraction, as experiments employing pure scCO₂ yielded no rhodium recovery. Furthermore, extraction performance demonstrated sensitivity to temperature and pressure adjustments during the process. Notably, the use of 10 vol% methanol at 120 °C and 30 MPa achieved complete rhodium extraction from the grained SLP materials, which was identified as the optimum extraction condition. This study highlights the potential for scaling up in-situ rhodium extraction processes within HyFo production plants based on SLP catalysts, emphasizing significant implications for industrial applications.

Original language	English
Article number	102968
Journal	Journal of CO2 Utilization
Volume	89
Number of pages	6
ISSN	2212-9820
DOIs	https://doi.org/10.1016/j.jcou.2024.102968
Publication status	Published - 2024

Keywords

Extraction optimization
Hydroformylation
Rh extraction
Supercritical CO
Supported liquid-phase catalysts

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title = "Extraction of rhodium from supported liquid-phase hydroformylation catalysts with supercritical carbon dioxide",

abstract = "The continuous extraction of the rhodium inventory in supported liquid-phase (SLP) catalytic materials utilized in the hydroformylation (HyFo) of 1-butene was investigated by supercritical carbon dioxide (scCO2). Optimization of extraction efficiency involved varying parameters such as temperature (90 and 120 °C), pressure (10, 20 and 30 MPa), and the addition of methanol as a polar co-feed to the extraction medium (0–20 vol%). The results underscored the critical role of methanol in facilitating extraction, as experiments employing pure scCO2 yielded no rhodium recovery. Furthermore, extraction performance demonstrated sensitivity to temperature and pressure adjustments during the process. Notably, the use of 10 vol% methanol at 120 °C and 30 MPa achieved complete rhodium extraction from the grained SLP materials, which was identified as the optimum extraction condition. This study highlights the potential for scaling up in-situ rhodium extraction processes within HyFo production plants based on SLP catalysts, emphasizing significant implications for industrial applications.",

keywords = "Extraction optimization, Hydroformylation, Rh extraction, Supercritical CO, Supported liquid-phase catalysts",

author = "Mahtab Madani and Leonhard Schill and Blete Hulaj and Jakob Willner and Andreas Limbeck and Katharina Bica-Schr{\"o}der and Rasmus Fehrmann and Anders Riisager",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2024",

doi = "10.1016/j.jcou.2024.102968",

language = "English",

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journal = "Journal of CO2 Utilization",

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T1 - Extraction of rhodium from supported liquid-phase hydroformylation catalysts with supercritical carbon dioxide

AU - Madani, Mahtab

AU - Schill, Leonhard

AU - Hulaj, Blete

AU - Willner, Jakob

AU - Limbeck, Andreas

AU - Bica-Schröder, Katharina

AU - Fehrmann, Rasmus

AU - Riisager, Anders

PY - 2024

Y1 - 2024

N2 - The continuous extraction of the rhodium inventory in supported liquid-phase (SLP) catalytic materials utilized in the hydroformylation (HyFo) of 1-butene was investigated by supercritical carbon dioxide (scCO2). Optimization of extraction efficiency involved varying parameters such as temperature (90 and 120 °C), pressure (10, 20 and 30 MPa), and the addition of methanol as a polar co-feed to the extraction medium (0–20 vol%). The results underscored the critical role of methanol in facilitating extraction, as experiments employing pure scCO2 yielded no rhodium recovery. Furthermore, extraction performance demonstrated sensitivity to temperature and pressure adjustments during the process. Notably, the use of 10 vol% methanol at 120 °C and 30 MPa achieved complete rhodium extraction from the grained SLP materials, which was identified as the optimum extraction condition. This study highlights the potential for scaling up in-situ rhodium extraction processes within HyFo production plants based on SLP catalysts, emphasizing significant implications for industrial applications.

AB - The continuous extraction of the rhodium inventory in supported liquid-phase (SLP) catalytic materials utilized in the hydroformylation (HyFo) of 1-butene was investigated by supercritical carbon dioxide (scCO2). Optimization of extraction efficiency involved varying parameters such as temperature (90 and 120 °C), pressure (10, 20 and 30 MPa), and the addition of methanol as a polar co-feed to the extraction medium (0–20 vol%). The results underscored the critical role of methanol in facilitating extraction, as experiments employing pure scCO2 yielded no rhodium recovery. Furthermore, extraction performance demonstrated sensitivity to temperature and pressure adjustments during the process. Notably, the use of 10 vol% methanol at 120 °C and 30 MPa achieved complete rhodium extraction from the grained SLP materials, which was identified as the optimum extraction condition. This study highlights the potential for scaling up in-situ rhodium extraction processes within HyFo production plants based on SLP catalysts, emphasizing significant implications for industrial applications.

KW - Extraction optimization

KW - Hydroformylation

KW - Rh extraction

KW - Supercritical CO

KW - Supported liquid-phase catalysts

U2 - 10.1016/j.jcou.2024.102968

DO - 10.1016/j.jcou.2024.102968

M3 - Journal article

AN - SCOPUS:85207662409

SN - 2212-9820

VL - 89

JO - Journal of CO2 Utilization

JF - Journal of CO2 Utilization

M1 - 102968

ER -

Extraction of rhodium from supported liquid-phase hydroformylation catalysts with supercritical carbon dioxide

Abstract

Keywords

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