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Asphaltene Reaction Pathways. 2. Pyrolysis of n-Pentadecylbenzene
Phillip E. Savage
, Michael T. Klein
Chemical Engineering
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peer-review
111
Scopus citations
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Dive into the research topics of 'Asphaltene Reaction Pathways. 2. Pyrolysis of n-Pentadecylbenzene'. Together they form a unique fingerprint.
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Keyphrases
Pyrolysis
100%
Reaction Pathway
100%
Asphaltene
100%
Thermolysis
66%
Reaction Kinetics
33%
First-order
33%
N-alkanes
33%
Operative
33%
Toluene
33%
Olefins
33%
Reaction Mechanism
33%
Styrene
33%
Tetralin
33%
Free Radicals
33%
Primary Response
33%
Aromatic Moieties
33%
Tridecane
33%
Thermolysis Mechanism
33%
Alkyl Aromatics
33%
Arrhenius Parameters
33%
Chemistry
Alkene
100%
Pyrolysis
100%
Tetralin
100%
Styrene
100%
n-Alkane
100%
Free Radical
100%
Tridecane
100%
1-Tetradecene
100%
Pharmacology, Toxicology and Pharmaceutical Science
Alkane
100%
Free Radical
100%
Alkene
100%
Tridecane
100%
Styrene
100%
Chemical Engineering
Pyrolysis
100%
Paraffin
100%
Olefin
100%
Styrene
100%