Rearrangement of α-pinene oxide using a surface catalysed spinning disc reactor (SDR)

M. Vicevic; R.J.J. Jachuck; K. Scott; J.H. Clark; Karen Wilson

doi:10.1039/b404191g

Rearrangement of α-pinene oxide using a surface catalysed spinning disc reactor (SDR)

M. Vicevic, R.J.J. Jachuck, K. Scott, J.H. Clark, Karen Wilson

Research output: Contribution to journal › Article › peer-review

Abstract

Isomerisation of α-pinene oxide to campholenic aldehyde was performed by immobilising zinc triflate based catalysts on the surface of a spinning disc reactor (SDR). Two types of catalyst have been studied and the influence of operating parameters such as rotational speed, feed flow rate and reaction temperature on conversion and selectivity towards campholenic aldehyde has been investigated in considerable detail. The findings of the study suggest that immobilising the catalyst on the reactor surface and performing the reaction in continuous mode has potential for achieving benefits of Green Chemical Technology (GCT).

Original language	English
Pages (from-to)	533-537
Number of pages	5
Journal	Green Chemistry
Volume	6
Issue number	10
DOIs	https://doi.org/10.1039/b404191g
Publication status	Published - 7 Oct 2004

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abstract = "Isomerisation of α-pinene oxide to campholenic aldehyde was performed by immobilising zinc triflate based catalysts on the surface of a spinning disc reactor (SDR). Two types of catalyst have been studied and the influence of operating parameters such as rotational speed, feed flow rate and reaction temperature on conversion and selectivity towards campholenic aldehyde has been investigated in considerable detail. The findings of the study suggest that immobilising the catalyst on the reactor surface and performing the reaction in continuous mode has potential for achieving benefits of Green Chemical Technology (GCT).",

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AU - Vicevic, M.

AU - Jachuck, R.J.J.

AU - Scott, K.

AU - Clark, J.H.

AU - Wilson, Karen

PY - 2004/10/7

Y1 - 2004/10/7

N2 - Isomerisation of α-pinene oxide to campholenic aldehyde was performed by immobilising zinc triflate based catalysts on the surface of a spinning disc reactor (SDR). Two types of catalyst have been studied and the influence of operating parameters such as rotational speed, feed flow rate and reaction temperature on conversion and selectivity towards campholenic aldehyde has been investigated in considerable detail. The findings of the study suggest that immobilising the catalyst on the reactor surface and performing the reaction in continuous mode has potential for achieving benefits of Green Chemical Technology (GCT).

AB - Isomerisation of α-pinene oxide to campholenic aldehyde was performed by immobilising zinc triflate based catalysts on the surface of a spinning disc reactor (SDR). Two types of catalyst have been studied and the influence of operating parameters such as rotational speed, feed flow rate and reaction temperature on conversion and selectivity towards campholenic aldehyde has been investigated in considerable detail. The findings of the study suggest that immobilising the catalyst on the reactor surface and performing the reaction in continuous mode has potential for achieving benefits of Green Chemical Technology (GCT).

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JO - Green Chemistry

JF - Green Chemistry

IS - 10

ER -

Rearrangement of α-pinene oxide using a surface catalysed spinning disc reactor (SDR)

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