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Abstract

AAPG Bulletin, V. 100, No. 8 (August 2016), P. 1311-1327.

Copyright ©2016. The American Association of Petroleum Geologists. All rights reserved.

DOI: 10.1306/02221615104

A new method for estimating total organic carbon content from well logs

Peiqiang Zhao,1 Zhiqiang Mao,2 Zhenhua Huang,3 and Chong Zhang4

1State Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum, No. 18, Fuxue Road, Changping District, Beijing 102249, China; [email protected]
2Beijing Key Laboratory of Earth Prospecting and Information Technology, China University of Petroleum, No. 18, Fuxue Road, Changping District, Beijing 102249, China; [email protected]
3Chongqing Institute of Geology and Mineral Resources, No. 177–9, ChangjiangEr Road, Yuzhong District, Chongqing 404100, China; [email protected]
4Geophysics and Oil Resource Institute, Yangtze University, No. 1, Daxue Road, Caidian District, Wuhan 430100, China; [email protected]

ABSTRACT

With the booming exploration and development of unconventional hydrocarbon resources in source rocks, the estimation of total organic carbon (TOC) content from well logs has become increasingly important because of the significance of TOC in the formation evaluation of those resources. In this paper, a new log overlay method is developed to estimate the TOC content of source rocks with excess radioactivity, but containing little or no potassium feldspar. Specifically, on the basis of previous results of log responses of source rocks, it is believed that the natural gamma ray (GR) log responses of source rocks in the applicable conditions are predominantly contributed by clay minerals and organic matter. A practical clay indicator is established to reflect the clay content using density and neutron logs. The indicator is effective not only in nonsource rocks that contain oil or water but also in source rocks. Furthermore, a new method was developed by overlaying the properly scaled clay indicator curve on the GR curve. In nonsource rocks, including clay-rich rocks and reservoirs saturated with oil or water, the two Previous HitcurvesNext Hit overlie each other, whereas a separation between the Previous HitcurvesNext Hit occurs in organic-rich source rocks. The separation between the Previous HitcurvesTop was defined and expressed and can be used to calculate the TOC consecutively after careful calibration with core data. This method has been successfully applied to two shale gas plays with high-maturity kerogen in the Sichuan Basin, China. In addition, a source rock with low-maturity kerogen was used to verify the new method for its effectiveness, reliability, and widespread adaptability.

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