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Publication Date
Sat Nov 01 2025
Journal Name
Iop Conference Series: Earth And Environmental Science
Volume
1545
DOI
10.1088/1755-1315/1545/1/012105
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Petrophysical Characterization and Depositional Insights of Mishrif Formation in X Oil Field, Iraq
Rafal A. Badr
Abdelwahhab A. Al-Salihi
Nagham J. Al-Ameri
Raby L. Climis
Hussein Jasim Al-Khafaji
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Abstract<p>For a huge and important productive reservoir such as Mishrif formation, the key factors for understanding its production performance and to introduce different production scenarios for future planes are its petrophysical properties. These properties may obtain from different sources such as experimental measurements which are a highly costed methods and well logs data. However, well log data cannot be used to find accurate estimation of such properties without an integrated sedimentological analysis. This research focus on petrophysical evaluation of Mishrif formation employing well log data, core analysis, and depositional modeling to elucidate reservoir characteristics and depositional environments. The calculation and evaluation of the studied reservoir is done using Techlog software. The results indicate that the principal reservoir unit is the MB unit based on water saturation evaluation. The main MB unit is further subdivided into two important subunits which are MB1 and MB2. The thickness of these units has been accurately estimated according to the changes of reservoir properties to gives a thickness ranging from 63.5 to 122 m. The effective porosity has been estimated to record high variation from 4 to 40 %. Also, water saturation has been estimated to give a range from 7% to 75%. The depositional setting of Mishrif Formation has been investigated in the current study using microfacies analysis to conclude that a flat-topped shelf is the main setting based on the presence of ruddiest. six main carbonate depositional environments are also obtained which are: restricted, open marine, shoal, biostrom, slope, deep marine. This study gives an important highlight for future reservoir static-geological modeling and a basic step for future reservoir management.</p>
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