Diamondoid hydrocarbons as indicators of natural oil cracking

Dahl, J. E.; Moldowan, J. M.; Peters, K. E.; Claypool, G. E.; Rooney, M. A.; Michael, G. E.; Mello, M. R.; Kohnen, M. L.

Diamondoid hydrocarbons as indicators of natural oil cracking

J. E. Dahl (), J. M. Moldowan, K. E. Peters, G. E. Claypool, M. A. Rooney, G. E. Michael, M. R. Mello and M. L. Kohnen
Additional contact information
J. E. Dahl: Stanford University
J. M. Moldowan: Stanford University
K. E. Peters: Mobil Exploration and Producing Technical Center
G. E. Claypool: Mobil Exploration and Producing Technical Center
M. A. Rooney: Mobil Exploration and Producing Technical Center
G. E. Michael: Conoco Inc.
M. R. Mello: Research and Development Center, Petrobras, Cidade Univeritaria
M. L. Kohnen: Shell International Exploration and Production

Nature, 1999, vol. 399, issue 6731, 54-57

Abstract: Abstract Oil cracking—the thermal breakdown of heavy hydrocarbons to smaller ones—takes place within oil-bearing rock formations at depths commonly accessed by commercial oil wells. The process ultimately converts oil into gas and pyrobitumen, and thus limits the occurrence of petroleum and the success of exploration. Thermal cracking of liquid petroleum increases with depth until it reaches completion at the so-called ‘oil deadline’, which is generally placed1,2 at around 5 km depth and at temperatures of 150–175 °C. However, cracking experiments3,4,5,6,7,8 and the discovery of relatively ‘hot’ oil reservoirs9,10 imply that petroleum is thermally more stable than previously assumed; in fact it has been suggested that liquid petroleum might persist at temperatures reaching6,11,12,13 or even exceeding3,14 200 °C. But reliable estimates of the extent of oil cracking and the depth at which it occurs in any given reservoir are difficult to obtain. Here we demonstrate that the relative abundance of diamondoids, a class of petroleum compounds whose unique thermal stability leads to their progressive concentration during cracking15, can be used to identify the occurrence and estimate the extent of oil destruction and the oil deadline in a particular basin. We are also able to identify oils consisting of mixtures of high- and low-maturity components, demonstrating that our method yields valuable information on the cracking and mixing processes affecting petroleum systems.

Date: 1999
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DOI: 10.1038/19953

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