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Dehydrogenation of long chain n-paraffins, in the carbon number range C10–C14, is a key step in the process for manufacture of bio-degradable synthetic detergent raw material, Linear Alkyl Benzene (LAB). Since its discovery in 1968, the process has undergone several improvements in the architecture of dehydrogenation catalysts towards achieving higher selectivity for mono-olefins formation, increase in LAB yield and quality, raw materials consumption and minimization of by-products, accompanied by several modifications in the process steps. This chapter brings out the salient features of the basic chemistry behind the dehydrogenation process, the catalyst characteristics, process chemistry, thermodynamics, kinetic and mechanistic aspects, traces the developments in the catalysts and process for dehydrogenation and finally, a brief on the emerging process technologies.
Originele taal-2 | English |
---|---|
Titel | Catalysis |
Redacteuren | James Spivey, Yifan Han |
Uitgeverij | Royal Society of Chemistry |
Hoofdstuk | 7 |
Pagina's | 282-316 |
Volume | 29 |
ISBN van elektronische versie | 978-1-78801-144-0 |
ISBN van geprinte versie | 978-1-78262-956-6 |
DOI's | |
Status | Published - 2017 |
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He, S., Krishnamurthy, K. R., & Seshan, K. (2017). Dehydrogenation of long chain n-paraffins to olefins – a perspective. In J. Spivey, & Y. Han (editors), Catalysis (Vol. 29, blz. 282-316). Royal Society of Chemistry. https://doi.org/10.1039/9781788010634-00282
He, Songbo ; Krishnamurthy, K. R. ; Seshan, K. / Dehydrogenation of long chain n-paraffins to olefins – a perspective. Catalysis. redacteur / James Spivey ; Yifan Han. Vol. 29 Royal Society of Chemistry, 2017. blz. 282-316
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abstract = "Dehydrogenation of long chain n-paraffins, in the carbon number range C10–C14, is a key step in the process for manufacture of bio-degradable synthetic detergent raw material, Linear Alkyl Benzene (LAB). Since its discovery in 1968, the process has undergone several improvements in the architecture of dehydrogenation catalysts towards achieving higher selectivity for mono-olefins formation, increase in LAB yield and quality, raw materials consumption and minimization of by-products, accompanied by several modifications in the process steps. This chapter brings out the salient features of the basic chemistry behind the dehydrogenation process, the catalyst characteristics, process chemistry, thermodynamics, kinetic and mechanistic aspects, traces the developments in the catalysts and process for dehydrogenation and finally, a brief on the emerging process technologies.",
author = "Songbo He and Krishnamurthy, {K. R.} and K. Seshan",
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He, S, Krishnamurthy, KR & Seshan, K 2017, Dehydrogenation of long chain n-paraffins to olefins – a perspective. in J Spivey & Y Han (uitgave), Catalysis. vol. 29, Royal Society of Chemistry, blz. 282-316. https://doi.org/10.1039/9781788010634-00282
Dehydrogenation of long chain n-paraffins to olefins – a perspective. / He, Songbo; Krishnamurthy, K. R.; Seshan, K.
Catalysis. uitgave / James Spivey; Yifan Han. Vol. 29 Royal Society of Chemistry, 2017. blz. 282-316.
Onderzoeksoutput › Academic › peer review
TY - CHAP
T1 - Dehydrogenation of long chain n-paraffins to olefins – a perspective
AU - He, Songbo
AU - Krishnamurthy, K. R.
AU - Seshan, K.
PY - 2017
Y1 - 2017
N2 - Dehydrogenation of long chain n-paraffins, in the carbon number range C10–C14, is a key step in the process for manufacture of bio-degradable synthetic detergent raw material, Linear Alkyl Benzene (LAB). Since its discovery in 1968, the process has undergone several improvements in the architecture of dehydrogenation catalysts towards achieving higher selectivity for mono-olefins formation, increase in LAB yield and quality, raw materials consumption and minimization of by-products, accompanied by several modifications in the process steps. This chapter brings out the salient features of the basic chemistry behind the dehydrogenation process, the catalyst characteristics, process chemistry, thermodynamics, kinetic and mechanistic aspects, traces the developments in the catalysts and process for dehydrogenation and finally, a brief on the emerging process technologies.
AB - Dehydrogenation of long chain n-paraffins, in the carbon number range C10–C14, is a key step in the process for manufacture of bio-degradable synthetic detergent raw material, Linear Alkyl Benzene (LAB). Since its discovery in 1968, the process has undergone several improvements in the architecture of dehydrogenation catalysts towards achieving higher selectivity for mono-olefins formation, increase in LAB yield and quality, raw materials consumption and minimization of by-products, accompanied by several modifications in the process steps. This chapter brings out the salient features of the basic chemistry behind the dehydrogenation process, the catalyst characteristics, process chemistry, thermodynamics, kinetic and mechanistic aspects, traces the developments in the catalysts and process for dehydrogenation and finally, a brief on the emerging process technologies.
U2 - 10.1039/9781788010634-00282
DO - 10.1039/9781788010634-00282
M3 - Chapter
SN - 978-1-78262-956-6
VL - 29
SP - 282
EP - 316
BT - Catalysis
A2 - Spivey, James
A2 - Han, Yifan
PB - Royal Society of Chemistry
ER -
He S, Krishnamurthy KR, Seshan K. Dehydrogenation of long chain n-paraffins to olefins – a perspective. In Spivey J, Han Y, redacteurs, Catalysis. Vol. 29. Royal Society of Chemistry. 2017. blz. 282-316 doi: 10.1039/9781788010634-00282