posted on 2012-04-03, 00:00authored byXibin Zhou, Quan Shi, Yahe Zhang, Suoqi Zhao, Rui Zhang, Keng H. Chung, Chunming Xu
A novel technique was developed for characterization
of saturated hydrocarbons. Linear alkanes were selectively oxidized
to ketones by ruthenium ion catalyzed oxidation (RICO). Branched and
cyclic alkanes were oxidized to alcohols and ketones. The ketones
were then reduced to alcohols by lithium aluminum hydride (LiAlH4). The monohydric alcohols (O1) in the products
obtained from the RICO and RICO-LiAlH4 reduction reactions
were characterized using negative-ion electrospray ionization (ESI)
Fourier transform ion cyclotron resonance mass spectrometry (FTICR
MS) for identification of iso-paraffins, acyclic
paraffins and cyclic paraffins. Various model saturated compounds
were used to determine the RICO reaction and ionization selectivity.
The results from the FTICR MS analysis on the petroleum distillates
derived saturated fraction were in agreement with those from field
ionization gas chromatography time-of-flight mass spectrometry (FI
GC-TOF MS) analysis. The technique was also used to characterize a
petroleum vacuum residue (VR) derived saturates. The results showed
that the saturated molecules in the VR contained up to 11 cyclic rings,
and the maximum carbon number was up to 92.