Can One-Run-Fixed-Arrhenius Kerogen Analysis Provide Comparable Organofacies Results to Detailed Palynological Analysis? A Case Study from a Prospective Mississippian Source Rock Reservoir (Bowland Shale, UK)

Sarah M Newport,Jan A I Hennissen,Leo P Newport,James P Armstrong,Edward Hough,Kevin G Taylor

doi:10.1007/s11053-019-09543-z

Sarah M Newport, Jan A I Hennissen + Show 4 more

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https://doi.org/10.1007/s11053-019-09543-z

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Abstract

Organofacies analysis, a fundamental component within source rock appraisal based on the study of kerogen within a source rock, is typically produced from microscopy (palynological) and geochemical (kerogen kinetic) data, both of which are costly to acquire. One-Run-Fixed-Arrhenius (ORFA) kerogen kinetic analysis based on Rock–Eval pyrolysis offers a substantially cheaper kinetic dataset. Here, ORFA and palynological analyses are compared in organofacies characterization of a prospective Mississippian source rock reservoir (Bowland Shale, UK). Two-end-member organofacies were determined based on the abundance of the 56 kcal/mol activation energy peak derived from ORFA data: absence (< 5%) indicating ‘organofacies A’ containing the highest proportion of algal material (Type I kerogen); and presence (> 15%) indicating ‘organofacies B’ containing the highest proportion of sporomorphs (Type II kerogen). A mud-dominated slope setting for the rock reservoir was also used to test the accuracy of organofacies analysis in determining depositional environment. Organofacies A found within lithofacies deposited from dilute waning density flows and hemipelagic suspension settling occurred between shelf edge, slope and basin. Organofacies B found within lithofacies deposited from dilute waning density flows, and low-strength cohesive debrites occurred only within the lower slope. This study demonstrates that ORFA kerogen kinetic analysis provides comparable net results to palynological analysis, enabling cheaper and faster organic characterization during initial source rock appraisal. However, caution must be exercised in drawing interpretations as to biological source(s), organic matter mixing and preservation state(s) without additional investigation using data from detailed palynological analysis.

Highlights

Within unconventional or conventional hydrocarbon exploration and appraisal, it is critical to characterize the source rocks within the petroleum system
This paper aims to establish whether organofacies interpretations based on kerogen kinetics derived from the One-Run-Fixed-Arrhenius (ORFA) technique proposed by Waples et al (2002), Waples and Nowaczewski (2013) and Waples (2016) are directly comparable to organofacies interpretations based on palynofacies analysis (Tyson 1995)
Kerogen typing from palynological analysis within this study follows the genetic system proposed by Tyson (1995) wherein Type I consists of algal material; Type II consists of spores and pollen, phytoplankton and cuticles; Type III consists of homogenous amorphic organic matter (AOM) and phytoclasts; and Type IV

Summary

Introduction

Within unconventional or conventional hydrocarbon exploration and appraisal, it is critical to characterize the source rocks within the petroleum system. The integrated study of the kerogen [the fraction of sedimentary organic matter that is non-extractable in organic solvents (Durand 1980)] contained within a source rock using both microscopy and geochemical techniques, as defined in the concept of Ôorganofacies,Õ is an essential tool for hydrocarbon source rock appraisal (e.g., Roger 1979; Cornford et al 1980; Jones 1987; Peters and Cassa 1994; Tuweni and Tyson 1994; Pepper and Corvi 1995; Evenick and McCain 2013). Palynofacies analysis involves the integrated study of all aspects of the kerogen assemblage based on transmitted light petrographic analysis: identification of the individual particulate components, assessment of their absolute or relative proportions and preservation states (Tyson 1995)

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