Downhole Fluids Characterization in Middle East Unconventional Reservoirs Using NMR 2D Maps

Vican, Kresimir; Jambunathan, Venkat; Negm, Ehab; Makarychev, Gennady; Laer, Pierre Van; Baig, Muhammad Zeeshan

doi:10.2118/193139-ms

Day 3 Wed, November 14, 2018 2018

DOI: 10.2118/193139-ms

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Downhole Fluids Characterization in Middle East Unconventional Reservoirs Using NMR 2D Maps

Kresimir Vican

Venkat Jambunathan

Ehab Negm

et al.

Abstract: Unconventional and conventional reservoirs do not have much in common. They exhibit different reservoir characteristics; therefore, using conventional reservoir interpretation techniques and workflows in unconventional reservoirs could lead to incorrect conclusions. In addition to fundamental challenges in evaluating reservoir properties, such as porosity and permeability, it is extremely important to understand reservoir fluid distribution. Downhole fluid typing and calculated volumes, together… Show more

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Integration Success Story in Shilaif Shale Oil from Vertical Pilot to Horizontal

Alharthi

Laer

Brooks

et al. 2021

Day 2 Tue, November 16, 2021

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The development of unconventional target in the Shilaif formation is in line with the Unconventional objective towards adding to ADNOC reserves. For future optimization of development plans, it is of utmost importance to understand and test and therefore prove the productivity of the future Unconventional Horizontal Oil wells. The Shilaif formation was deposited in a deeper water intrashelf basin with thicknesses varying from 600 to 800 ft from deep basin to slope respectively. The formation is subdivided into 3 main composite sequences each with separate source and clean tight carbonates. The well under consideration (Well A-V for the vertical pilot and Well A-H for the horizontal wellbore) was drilled on purpose in a deep synclinal area to access the best possible oil generation and maturity in these shale Oil plays. Due to the stacked nature of these thick high-quality reservoirs, a pilot well is drilled to perform reservoir characterization and test hydrocarbon type and potential from each bench. Fracturing and testing are performed in each reservoir layer for the primary purpose to evaluate and collect key fracturing and reservoir parameter required to calibrate petrophysical and geomechanical model, landing target optimization and ultimately for the design of the development plan of this stacked play. Frac height, reservoir fluid composition and deliverability, pore pressure are among key data collected. The landing point selected based on the comprehensive unconventional core analysis integrated with petrophysical and geomechanical outcomes using post vertical frac and test results. Well A-H was drilled as a sidetrack from the pilot hole Well A-V. This lateral section was logged with LWD Triple Combo while Resistivity Image was acquired on WL. Based on the logging data the well stayed in the target Layer / formation, cutting analysis data for XRD and TOC was integrated with the petrophysical results in A-H well. Production test results from subject were among the highest rate seen during exploration and appraisal of this unconventional oil plays and compete with the current commercial top tier analog unconventional oil plays. Achieving those results in such early exploration phases is huge milestone for ADNOC unconventional exploration journey in UAE and sign of promising future development.

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Integration Success Story in Shilaif Shale Oil from Vertical Pilot to Horizontal

Alharthi

Laer

Brooks

et al. 2021

Day 2 Tue, November 16, 2021

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A Journey Unlocking Additional Unconventional Resources: Extensive Integration of Subsurface & Completion. A Case Study from UAE Unconventional Oil Play

Ibe,

Panchakarla,

Uluyuz

et al. 2024

Adipec

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Unconventional play is associated with several challenges due to the complex nature of the reservoir. Identifying potential zones to target wells, stimulating, and planning field development to recover the hydrocarbon remains bleak without proper evaluation. This paper illustrates successful implementation of reservoir characterization, stimulation, and field development of the Shilaif formation Onshore UAE. The Shilaif formation is argillaceous limestone, fine-grained packstones and shaly lime mudstone-wackestones. This complex lithology was deposited under intra-shelf basinal conditions during the Cretaceous period. Previous studies spe-211005-ms published elaborated on data integration approach adopted to characterize the Shilaif member, enabling identification of the potential zones for horizontal well placements and successful development of this organic-rich rock. Based on this study, extensive evaluation of geomechanical properties of the reservoir was done to guide stimulation. The hydrocarbon resource quantified was confirmed producible and pad drilling planned to fully extract the hydrocarbons. Geomechanical modelling was done to guide hydraulic fracturing using elastic properties, unconfined compressive strength and tensile strength derived from acoustic data acquired. Overburden stress, stress profiles and pore pressure from the mechanical earth model built resulted in efficient fracturing of the reservoir to release the hydrocarbon. Successful stimulation increased permeability profile post-frac as evident from the production data. Stress profiles and orientation determination from this study also guided subsequent well planning as pad drilling was initiated with horizontal wells targeting two different benches within Shiliaf formation first time. This study well is a success as part of wells drilled with similar extensive integration of elemental spectroscopy to reduce the uncertainty in total organic carbon (TOC), nuclear magnetic resonance (NMR) to provide lithology independent porosity and distinguish producible and non-producible fluids, acoustic log for stress determination and mechanical earth modeling which guided reservoir stimulation. A pre-frac injection test carried out revealed reservoir pressure and permeability in the different frac-zones and helped stage the hydraulic fracturing exercise. The mechanical properties estimation of reservoir rock with inputs from acoustic log, guided the staging of hydraulic fracturing and improving zone selections and optimizing hydraulic fracturing process. This has proved efficient in successful development of the organic rich rocks of the Shilaif formation.

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Downhole Fluids Characterization in Middle East Unconventional Reservoirs Using NMR 2D Maps

Cited by 2 publications

References 1 publication

Integration Success Story in Shilaif Shale Oil from Vertical Pilot to Horizontal

Integration Success Story in Shilaif Shale Oil from Vertical Pilot to Horizontal

A Journey Unlocking Additional Unconventional Resources: Extensive Integration of Subsurface & Completion. A Case Study from UAE Unconventional Oil Play

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