Electrofacies Determination of the Asmari Reservoir using Neural Net SOM Method In Qaleh Nar Oil Field

ispg-202605282120260528214151CMV Verlagkhoffmann@cmv-verlag.comCMV VerlagIranian Journal of Petroleum Geologyispg2251-8738123020241326Electrofacies Determination of the Asmari Reservoir using Neural Net SOM Method In Qaleh Nar Oil FieldYahyaNilofariبهمن سلیمانیAliKadkhodaieRahmatSadeghiAbdolahChogol1230202411910.66224/ispg.44370.13.26.1http://journal.ispg.ir/en/Article/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370http://journal.ispg.ir/en/Article/Download/44370مطیعی، ه. 1374، زمین شناسی نفت زاگرس 1و2، انتشارات سازمان زمین شناسی کشور. 1024 صفحه.رحیمی بهار.ع.ا، 1391-الف، تفکیک زون های مختلف مخزن هیدروکربنب با کمک رخساره های الکتریکی، پژوهش نفت، 10ص. رحیمی بهار.ع.ا، 1391-ب، استفاده از رخساره های الکتریکی در شبیه سازی رخساره های رسوبی، مجله رخساره های رسوبی، دانشگاه مشهد، 15ص.Abbaszadeh, M., H. Fujii and F. Fujimoto, 1996, Permeability prediction by hydrolic flow units theory and applications. SPE Format. Evaluate, 11:263-271.Ali, A.M., and Alhaleem, A.A., 2023, Determination of Reservoir Hydraulic Flow Units and Permeability Estimation Using Flow Zone Indicator Method. Iraqi Journal of Chemical and PetroleumEngineeringVol. 24 No.2 (June 2023) 89 – 95. DOI: 10.31699/IJCPE.2023.2.10.Amaefule, J.O., Altunbay, M., Tiab, D., Kersey, D.G. and Keeland, D.K., 1994, Enhanced reservoir description: using core and log data to identify hydraulic (flow) units and predict permeability in uncored intervals/wells. SPE Paper 26436, p.1–16.Carman, P.C., 1937, Fluid Flow through granular beds. Trans. AIChE, 15: 150-166.Casciello, E., Vergés, J., Saura, E., Casini, G., Fernandez, N., Blanc, E., Homke, S., Hunt, D. W., 2009, Fold patterns and multilayer rheology of the Lurestan Province, Zagros Simply Folded Belt (Iran), Journal of the Geological Society, 166, 947-959.DOI: 10.1144/0016-76492008-138.Costa, F. R., de Carvalho Carneiro, C., and Ulsen, C., 2023, Self-Organizing Maps Analysis of Chemical–Mineralogical Gold Ore Characterization in Support of Geometallurgy. Mining 2023, 3(2), 230-240; https://doi.org/10.3390/mining3020014.Frysztacki, M.M., Recht, G. & Brown, T. A, 2022, comparison of clustering methods for the spatial reduction of renewable electricity optimisation models of Europe. Energy Inform 5 (4). https://doi.org/10.1186/s42162-022-00187-7Gunter, G.W. et al., 1997. Early determination of reservoir flow units using an integrated petrophysical method. SPE 38679, P 373-380Kadkhodaie-Ilkchi, A., and Amini,A., 2009, A fuzzy logic approach to estimating hydraulic flow units from well log data: a case study from the Ahvaz oil field, South Iran, Journal of Petroleum Geology, v.32, no.1, p. 1-12.Khalid, M., Desouky, SD., Rashed, M. et al., 2020, Application of hydraulic flow units’ approach for improving reservoir characterization and predicting permeability. J Petrol Explor Prod Technol 10, 467–479 (2020). https://doi.org/10.1007/s13202-019-00758-7Khoshbakht, F., Mohammadnia, M., Rahimi Bahar, a.A., and Beiraghadar, Y., 2015, Evaluating Different Approaches to Permeability Prediction in a Carbonate Reservoir, J. Petrol.Sci. Tech., v.5, no.1, P.79-90Kohonen, T., Kaski, S., and Lappalainen, H., 1997. Self-organized formation of various invariant feature filters in the adaptive-subspace SOM. Neural Computation, v. 9, p.1321-1344.Kozeny, J., 1927, Uber Kapillare Leitung des Wassers im Boden, Stizurgsberichte, Royal Academy of Science, Vienna, Proc. Class 1, 136: 271-306.Kuroda, M.C., Vidal, A.C., Leite, E.P., and Drummond, R.D., 2012, Electrofacies characterization using self-organization maps, Revista Brasileira de Geof´isica, v. 30, no.3, p. 287-299Lucia, F.J., 1995, Rock-fabric/petrophysical classification of carbonate pore space for reservoir characterization: AAPG Bulletin, v. 79, no.9, p. 1275 – 1300. Maldar, R., Ranjbar-Karami, R., Behdad, A., Bagherzadeh, S., 2022, Reservoir rock typing and electrofacies characterization by integrating petrophysical properties and core data in the Bangestan reservoir of the Gachsaran oilfield, the Zagros basin, Iran. Journal of Petroleum Science and Engineering, 210, 110080. https://doi.org/10.1016/j.petrol.2021.110080. Mirzaei-Paiaman, A., Saboorian Jooybari, H., Pourafshary, P., 2015, Improved Method to Identify Hydraulic Flow Units for Reservoir Characterization. Energy Technology 3(7). DOI: 10.1002/ente.201500010.Mukherjee, A., 1997, Self-organizing neural network for identification of natural modes. The Journal of Computing in Civil Engineering, v. 11, no. 1, p.74-77.Schatzmann, J., 2003, Using Self-Organizing Maps to Visualize Clusters and Trends in Multidimensional Datasets. Department of Computing Data Mining Group, Imperial College, London.Serra, O., and H. Abbot, 1980, The Contribution of Logging Data to Sedimentology and Stratigraphy, SPE of AIME, Transaction 55th Annual Fall Technology Conference.Sfidari, E., Kadkhodaie-Ilkhchi, A., and Najjari, S., 2012, Comparison of intelligent and statistical clustering approaches to predicting total organic carbon using intelligent systems. Journal of Petroleum Science and Engineering 86-87, p.190-205. Shedid, A. S., and Reyadh A. A., 2002, A New Approach of Reservoir Description of Carbonate Reservoirs, SPE 74344, 1- 10P.Soto R., Garcia J, C. 2001, Permeability prediction using hydraulic flow units and hybrid soft computing systems, spe 71455.Van Hulle, M.M., 2012, Self-organizing Maps. In: Rozenberg, G., Bäck, T., Kok, J.N. (eds) Handbook of Natural Computing. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-92910-9_19.Vesanto J., 1999, SOM-Based Visualization Methods. Intelligent Data Analysis, V.3, no.2, P.111- 126.Vesanto, J. & Alhoniemi, E., 2000, Clustering of the Self-Organizing Map. IEEE Transactions on Neural Networks 11(3), 586-600.Winland H. D., 1972, Oil Accumulation in Response to Pore Size changes. Weyburn field, Saskatchewan. Amoco Production Research Report, no. F72-G-25, 197.Ye, S.J., and Rabiller, P., 2000, A New Tool for electrofacies Analysis: Multi-Resolution Graph-Based Clustering, SPWLA, 41st Annual Logging Symposium Transaction, June 4-7, V. 4, p. 175-189.Evaluation of Reservoir Quality of upper Dalan formation using Petrophysical data in one of the gas fields in southern IranParyaZendehdelamirkarimian torghabeh12302024203310.66224/ispg.47842.13.26.20http://journal.ispg.ir/en/Article/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842http://journal.ispg.ir/en/Article/Download/47842Dehghan Abnavi, A., Karimian Torghabeh, A., Qajar, J., Kadkhodaii Ilkhchi, R. and Talebnejad, A., 2021. Evaluation of reservoir properties in Kangan and Dalan Formation base on petrophysical data in one of Iranian gas fields. Researches in Earth Sciences, 12(3), pp.68-82.Esrafili‐Dizaji, B. and Rahimpour‐Bonab, H., 2013. A review of permo‐triassic reservoir rocks in the zagros area, sw iran: influence of the qatar‐fars arch. Journal of Petroleum Geology, 36(3), pp.257-279.Hosseinzadeh, M. and Tavakoli, V., 2022. The Effect of Geological Parameters onthe Ratio of Horizontal to Vertical Permeability in Carbonate Reservoirs of Kanganand Upper Dalan Formations. Journal of Petroleum Research, 32(123), pp.69-81. Insalaco, E., Virgone, A., Courme, B., Gaillot, J., Kamali, M., Moallemi, A., Lotfpour, M. and Monibi, S., 2006. Upper Dalan Member and Kangan Formation between the Zagros Mountains and offshore Fars, Iran: depositional system, biostratigraphy and stratigraphic architecture. GeoArabia-Manama-, 11(2), p.75.Nikbin, M., Khanehbad, M., Moussavi-Harami, R., Mahboubi, A., Khoddami, M. and Ghofrani, E., 2020. Investigation of reservoir quality of the Kangan Formation based on petrographic and petrophysical studies: A case study of wells" A" and" B" in the gas field of the Tabnak Anticline, SW Iran. Iranian Journal of Earth Sciences, 12(1), pp.69-84.Rahimpour‐Bonab, H., Asadi‐Eskandar, A. and Sonei, R., 2009. Effects of the Permian–Triassic boundary on reservoir characteristics of the South Pars gas field, Persian Gulf. Geological journal, 44(3), pp.341-364.Taheri, K. and Hadadi, A., 2020. Improving the Petrophysical Evaluation and Fractures study of Dehram Group Formations using conventional petrophysical logs and FMI Image Log in one of the Wells of South Pars Field. Journal of Petroleum Science and Technology, 10(4), p.31.Zamani, Z., Lotfpour, M. and Moradpour, M., 2004. Conventional core analysis and reservoir characterization of the Kangan Formation in the ‘‘SPG’’field, Persian Gulf, SPG# 1well. Research Institute of Petroleum Industry, Iran. Unpublished Report.Investigating the effect of Hendijan/Izeh fault on the sedimentation of Tarbur formation in Keynow anticline based on sedimentology and biostratigraphy studiessadeghzahiriDavood JahaniAliRahmani12302024506210.66224/ispg.47858.13.26.50http://journal.ispg.ir/en/Article/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858http://journal.ispg.ir/en/Article/Download/47858Abdollahie Fard, I., Sepehr, M., and Sherkati, S., 2011, Neogene salt in SW Iran and its interaction with Zagros folding: Geological Magazine, v. 148, no. 5-6, p. 854-867. Allahkarampour Dill, M., Vaziri-Moghaddam, H., Seyrafian, A., and Behdad, A., 2018, Oligo-Miocene carbonate platform evolution in the northern margin of the Asmari intra-shelf basin, SW Iran: Marine and Petroleum Geology, v. 92, p. 437-461 Falcon, N. L., 1974, Southern Iran: Zagros Mountains, in Spencer, A., ed., Mesozoic-Cenozoic Orogenic Belts, Geological Society of London Special Publication 4, p. 199-211. Ghabeishavi, A., Vaziri-Moghaddam, H., and Taheri, A., 2009, Facies distribution and sequence stratigraphy of the Coniacian–Santonian succession of the Bangestan Palaeo-high in the Bangestan Anticline, SW Iran: Facies, v. 55, no. 2, p. 243-257. Ghabeishavi, A., Vaziri-Moghaddam, H., Taheri, A., and Taati, F., 2010, Microfacies and depositional environment of the Cenomanian of the Bangestan anticline, SW Iran: Journal of Asian Earth Sciences, v. 37, no. 3, p. 275-285. James, G. A., and Wynd, J. G., 1965, Stratigraphic nomenclature of Iranian Oil Consortium Agreement Area: AAPG Bulletin, v. 49, no. 12, p. 2182–2245. Laursen, G. V., Monibi, S., Allan, T. L., Pickard, N. A. H., Hosseiney, A., Vincent, B., Hamon, Y., Van Buchem, F. S. P., Moallemi, A., and Druillion, G., 2009, The Asmari Formation revisited: Changed stratigraphic allocation and new biozonation, First International Petroleum Conference and Exhibition: Shiraz, Iran. Nikfard, M., 2023, Lower Eocene carbonate ramp clinoforms of the southern Tethys; Zagros Foreland Basin, SW Iran: Sequence stratigraphy architecture, basin physiography and carbonate factory controlling parameters, v. 35, no. 6, p. 2049-2077. Parham, S., Piryaei, A. R., Ghorbani, M., and Moussavi-Harami, R., 2019, Paleogeographic evolution of the Maastrichtian deposits in the eastern Fars area (Zagros, Iran) using high-resolution sequence stratigraphic analysis: Carbonates and Evaporites, v. 34, no. 2, p. 315. Piryaei, A., Reijmer, J. J. G., van Buchem, F. S. P., Yazdi-Moghadam, M., Sadouni, J., and Danelian, T., 2010, The influence of Late Cretaceous tectonic processes on sedimentation patterns along the northeastern Arabian plate margin (Fars Province, SW Iran): Geological Society, London, Special Publications, v. 330, no. 1, p. 211-251. Rahmani, A., Taheri, A., Vaziri-Moghaddam, H., and Ghabeishavi, A., 2012, Biostratigraphy of the Asmari Formation at Khaviz and Bangestan Anticlines, Zagros Basin, SW Iran: Neues Jahrbuch für Geologie und Paläontologie-Abhandlungen, v. 263, no. 1, p. 1–16. Sepehr, M., and Cosgrove, J. W., 2002, The major fault zones controlling the sedimentation, deformation and entrapment of hydrocarbon in the Zagros fold-thrust belt, Iran, AAPG Annual Meeting: Houston, Texas, p. 10-13. -, 2007, The role of major fault zones in controlling the geometry and spatial organization of structures in the Zagros Fold–Thrust Belt: Geological Society, London, Special Publications, v. 272, p. 419-436. Shabafrooz, R., Mahboubi, A., Vaziri-Moghaddam, H., Moussavi-Harami, R., Ghabeishavi, A., and Al-Aasm, I. S., 2015, Facies analysis and carbonate ramp evolution of Oligo-Miocene Asmari Formation in the Gachsaran and Bibi-Hakimeh oilfields and the nearby Mish anticline, Zagros Basin, Iran Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen, v. 276, no. 1, p. 121-146. Sherkati, S., and Letouzey, J., 2004, Variation of structural style and basin evolution in the central Zagros (Izeh zone and Dezful Embayment), Iran: Marine and Petroleum Geology, v. 21, no. 5, p. 535–554. Van-Buchem, F., Allen, T., Gaumet, F., Karimi, Z., Laursen, G., Lotfpour, M., Masse, P., Moallemi, A., Monibi, A., Motiei, H., Tahmasbi, A. R., Vedrenne, V., and Vincent, B., 2006, The evolution of the Oligocene early Miocene mixed sedimentary system in the Dezful Embayment (SW Iran). Geo2006 Abstracts,GeoArabia, 12. van_Buchem, F. S. P., Allan, T. L., G V Laursen, Lotfpour, M., Moallemi, A., Monibi, S., Motiei, H., Pickard, N. A. H., Tahmasbi, A. R., Vedrenne, V., and Vincent, B., 2010, Regional stratigraphic architecture and reservoir types of the Oligo-Miocene deposits in the Dezful Embayment (Asmari and Pabdeh Formations) SW Iran, in van_Buchem, F. S. P., Gerde, K. D., and Esteban, M., eds., Mesozoic and Cenozoic carbonate systems of the Mediterranean and the Middle East; stratigraphic and diagenetic reference models: London, Geological Society London Special Publications 329, p. 219-263. Wynd, J. G., 1965, Biofacies of the Iranian consortium- agreement area: Iranian Offshore Oil Company. Reconstruction of depositional environment and sea-level changes in the Ilam Formation in the Lorestan subzoneAtefehYeganeh MoghadamAsadollah MahboubiMohammad HoseinMahmoudi GharaeiRezaMoussavi-HaramiArsalanBakhshi12302024344910.66224/ispg.48153.13.26.34http://journal.ispg.ir/en/Article/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153http://journal.ispg.ir/en/Article/Download/48153منابع]1[ اسدی، ب.، 1393، لیتواستراتیگرافی و بیواستراتیگرافی سازند ایلام در تاقدیس‌های کبیرکوه و سورگاه: پایان¬نامه کارشناسی ارشد، دانشگاه شهید بهشتی، 164 صفحه.]2[ اکبری بس¬کلایه، ن.، 1380، بیواستراتیگرافی و لیتواستراتیگرافی سازندهای سروک و ایلام در ناحیه جنوبی فروافتادگی دزفول (خارک-کوه میش): پایان¬نامه کارشناسی ارشد، دانشگاه تهران، 207 صفحه.]3[ امیری¬بختیار، ح.، 1370، تفسیر بیواستراتیگرافی سازندهای سروک و ایلام در منطقه ایذه (شمال شرق خوزستان) و مقایسه آن با منطقه سمیرم: پایان¬نامه کارشناسی ارشد، دانشگاه تهران، 231 صفحه.]4[ امیری¬بختیار، ح.، نورایی نژاد، م.، 1400، چینه‌شناسی زاگرس: جلد دوم، مزوزوئیک، انتشارات ترآوا، 468 صفحه.]5[ ایزدی مزیدی، ا.، 1393، تعیین نوع سنگ مخزن با استفاده از داده‌های زمین‌شناسی، پتروفیزیکی و مخزنی در گروه بنگستان، میدان اهواز: پایان‌نامه کارشناسی ارشد، دانشگاه سمنان.]6[ بخشی، ا.، 1400، محیط رسوبی، دیاژنز، چینه‌نگاری سکانسی و بررسی کیفیت مخزنی سازند ایلام در دو طرف گسل‌های بالارود و پیشانی کوهستان (جنوب ناحیه لرستان و شمال دزفول شمالی): پایان نامه دکترا، دانشگاه شهید بهشتی، 334 صفحه. ]7[ بهلولی، ا.، 1399، ریز زیست چینه‌نگاری و بوم‌شناسی دیرینه سازند ایلام در برش کوه سورگاه براساس فرامینیفرهای پلانکتونیک، حوضه رسوبی زاگرس: پایان نامه کارشناسی ارشد، دانشگاه فردوسی مشهد، 153 صفحه. ]8[ چهارده¬چریک، غ.، 1385، زیست¬چینه¬نگاری سکانسی سازند ایلام (مقطع تیپ) براساس فرامینیفرهای پلانکتونیک جنوب شرقی ایلام: پایان نامه کارشناسی ارشد، دانشگاه اصفهان، 122 صفحه.]9[ راهنما، ا.، 1402، تاثیر بلندای قدیمه فارس و تغییرات سطح آب دریا بر شرایط رسوبگذاری گروه بنگستان: پایان‌نامه کارشناسی ارشد، دانشگاه شیراز.]10[ رحمانی¬زاده، ح.، 1388، محیط رسوبی و ژئوشیمی سازند ایلام در کوه سورگاه و مقایسه آن با برش سیاه¬کوه (ایلام): پایان‌نامه کارشناسی ارشد، دانشگاه شهید بهشتی، 203 صفحه.]11[ روشن‌پور، ع.، 1395، زیست چینه‌نگاری روزن‌بران سازند ایلام در تاقدیس چناره، شمال غرب اندیمشک: پایان‌نامه کارشناسی ارشد، دانشگاه خوارزمی.]12[ زینل‌زاده، ا.، 1379، تاریخچه تدفین و مدلسازی حرارتی سازندهای گروه خامی، بنگستان و دهرم در ناحیه فارس: پایان‌نامه کارشناسی ارشد، دانشگاه تهران.]13[ عباساقی، ف.، امیدپور، ا.، 1401، بررسی تغییرات مداری آب و هوایی و نرخ رسوبگذاری در سازند ایلام در میدان نفتی کوپال، فروافتادگی دزفول: مجله زمین‌شناسی نفت ایران 23، 89-105.]14[ علیجانی، ح.، 1390، محیط رسوبی، دیاژنز و ژئوشیمی سازند ایلام کوه شاه¬نخجیر (جنوب ایلام): پایان‌نامه کارشناسی ارشد، دانشگاه شهید بهشتی، 151 صفحه.]15[ غریبی ورزقانی، س.، 1393، میکروفاسیس، محیط رسوبی و ژئوشیمی سازند ایلام در میدان نفتی آزادگان: پایان¬نامه کارشناسی ارشد، دانشگاه شهید بهشتی، 217 صفحه.]16[ فولادوند، ر.، 1401، چینه¬نگاری سکانسی، تاریخچه رسوبگذاری، دیاژنز و مدلسازی هتروژنیتی سازند ایلام در برخی از میادین بخش جنوبی فروافتادگی دزفول شمالی: رساله دکترا، دانشگاه شهید بهشتی، 242 صفحه.]17[ مطیعی، ه.، 1372، چینه‌شناسی زاگرس، طرح تدوین کتاب زمین‌شناسی ایران، سازمان زمین‌شناسی کشور، 536 صفحه.]18[ مطیعی، ه،1374، زمین‌شناسی نفت زاگرس: طرح تدوین کتاب زمین‌شناسی ایران، انتشارات زمین‌شناسی ایران، 1009 صفحه.[19] ABASAGHI, F., MAHBOUBI, A., MAHMOUDI GHARAEI, M.H., and KHANEHBAD, M., 2020, Occurrence of Zoophycos in the Ruteh Formation, Middle Permian (Guadalupian), Central Alborz, Iran: palaeoenvironmental and sequence stratigraphy implications: Neues Jahrbuch für Geologie und Paläontologie-Abhandlungen, 298, 285-309.[20] ABDOLAHI, A., BAHREHVAR, M., MEHRABI, H., OMIDVAR, M., KADKHODAEI, A., and WOOD, D.A., 2024, Paleoclimate changes across the Cenomanian–Santonian transition at the southern Neo-Tethys margin (SW Iran): An integrated approach: Gondwana Research, 131, 208-236.[21] ABDOLLAHI FARD, I., SHERKATI, S., MCCLAY, K., and HAQ, B.U., 2019, Tectono-Sedimentary Evolution of the Iranian Zagros in a Global Context and Its Impact on Petroleum Habitats. In: Farzipour Saein, A., (ed.), tectonic and structural framework of the Zagros Fold-Thrust Belt: Developments in Structural Geology and Tectonics, 3, 17-28.[22] ASADI MEHMANDOSTI, E., 2022, Variation of geochemical data and sedimentary characteristics in the Upper Cretaceous Ilam Formation, a case study from southwest Iran: Palaeobiodiversity and Palaeoenvironments, 103, 71-93.[23] BASILONE, L., SULLI, A., and MORTICELLI, M.G., 2016, The relationships between soft-sediment deformation structures and synsedimentary extensional tectonics in Upper Triassic deep-water carbonate succession (Southern Tethyan rifted continental margin-Central Sicily): Sedimentary Geology, 344, 310-322.[24] BORNHOLD, B.D., REN, P., and PRIOR, D.B., 1994, High-frequency turbidity currents in British Columbia fjords: Geo-Marine Letters, 14, 238–243.[25] BURCHETTE, T.P. and WRIGHT, V.P., 1992, Carbonate ramp depositional systems: Sedimentary Geology, 79, 3-57.[26] CATUNEANU, O., GALLOWAY, W.E., KENDALL, C.G.S.C., MIALL, A.D., POSAMENTIER, H.W., STRASSER, A., and TUCKER, M.E., 2011, Sequence Stratigraphy: Methodology and Nomenclature: Newsletters on Stratigraphy, 44, 173–245.[27] CATUNEANU, O., 2019, Scale in sequence stratigraphy: Marine and Petroleum Geology, 106, 128-159.[28] CHAFETZ, H.S., 2007, Paragenesis of the Morgan Creek Limestone, Late Cambrian, central Texas: Constraints on the formation of glauconite: Deep-Sea Research II, 54, 1350-1363.[29] CREASER, A., HERN´ANDEZ-MOLINA, F., BADALINI, G., THOMPSON, P., WALKER, R., SOTO, M., and CONTI, B., 2017, A late cretaceous mixed (turbidite-contourite) system along the Uruguayan margin: Sedimentary and paleoceanographic implications: Marine Geology, 390, 234–253.[30] DICKSON, J.A.D., 1966, Carbonate identification and genesis as revealed by staining: Journal of Sedimentary Research, 36, 491-505.[31] DUNHAM, R., 1962, Classification of carbonate rocks according to depositional texture. In:Classification of Carbonate Rocks: American Assocition Petroleum Geology, 121 pp.[32] EMBRY, A.F., and JOHANNESSEN, E.P., 1992, T-R sequence stratigraphy, facies analysis andreservoir distribution in the uppermost Triassic-Lower Jurassic succession, westernSverdrup Basin, Arctic Canada: Norwegian Petroleum Society Special Publications, 2, 121-146.[33] FLÜGEL, E., 2010, Microfacies Analysis of Limestones, Analysis Interpretationand Application.Springer-Verlag, 976 pp.[34] GHASEMINEJAD, A., and TALBOT, C.J., 2006, A new tectonic scenario for the Sanandaj–Sirjan Zone (Iran): Journal of Asian Earth Sciences, 26, 683–693.[35] HAJEK, E.A., HELLER, P.L., and SHEETS, B.A., 2010, Significance of channel-belt clustering in alluvial basins: Geology, 38, 535-38.[36] HALLENBERGER, M., REUNING, L., BACK, S., GALLAGHER, S.J., IWATANI, H., and LINDHORST, K., 2021, Climate and sea-level controlling internal architecture of a Quaternary carbonate ramp (Northwest Shelf of Australia): Sedimnetology, 69, 1276-1300.[37] HAQ, B.U., 2014, Cretaceous eustasy revisited: Global and Planetary Change, 113, 44-58. [38] HEYDARI, E., 2008, Tectonics versus eustatic control on supersequences of the Zagros Mountains of Iran: Tectonophysics, 451, 56–70.[40] HOSSEINPOUR, M., ARIAN, M., MALEKI, Z., and QORASHI, M., 2022, Investigating for hydrocarbon potential in the Sarvak and Ilam Formations using Fuzzy logic in the Fars region, Iran: Episodes, 46, 361-374.[41] HUNT, D. and TUCKER, M., 1992, Stranded parasequences and the forced regressive wedge systems tract: deposition during base-level fall: Sedimentary Geology, 81, 1-9.[42] JAMES, G.A., and WYND, J.G., 1965, Stratigraphic nomenclature of Iranian oil consortium agreement area: Bulletin of the American Association Petroleum Geology Memoir, 49, 2182-2245.[43] KORDI, M., 2019, Sedimentary basin analysis of the Neo-Tethys and its hydrocarbonsystems in the Southern Zagros fold-thrust belt and foreland basin: Earth-Science Reviews, 191, 1-11.[44] KOTAKE, N., 2014, Changes in lifestyle and habitat of Zoophycos-producing animals related to evolution of phytoplankton during the Late Mesozoic, geological evidence for the benthic-pelagic coupling model: Lethaia, 47, 165-175.[45] LARGE, R.R., HALPIN, J.A., DANYUSHEVSKY, L.V., MASLENNIKOV, V.V., BULL, S.W., LONG, J.A., GREGORY, D.D., LOUNEJEVA, E., LYONS, T.W., SACK, P.J., MCGOLDRICK, P.J., and CALVER, C.R., 2014, Trace element content of sedimentary pyrite as a new proxy for deep-time ocean–atmosphere evolution: Earth and Planetary Science Letters, 389, 209–220.[46] MEHRABI, H., NAVIDTALAB, A., ENAYATI, A., and BAGHERPOUR, B., 2022: Age, duration, and geochemical signatures of paleo-exposure events in Cenomanian-Santonian sequences (Sarvak and Ilam formations) in SW Iran: Insights from carbon and strontium isotopes chemo-stratigraphy: Sedimentary Geology, 434, 106136.[47] PIPER, D.J.W., and NORMARK, W.R., 2009, Processes That Initiate Turbidity Currents and Their Influence on Turbidites: A Marine Geology Perspective: Journal of Sedimentary Research, 79, 347–362.[48] READ, J.F., 1985, Carbonate Platform Facies Models: American Association of Petroleum Geologists Bulletin, 69, 1-21.[49] REIJMER, J.J.G., MULDER, T., and BORGOMANO, J., 2015, Carbonate slope and gravity deposits: Sedimentary Geology, 317, 1-15.[50] SCHLAGINWEIT, F., OMIDVAR, M., SARAFI, A., YAZDI-MOGHADAM, M., and RASHIDI, K., 2024, Dasycladales (green algae) and some benthic foraminifera from the upper cretaceous ilam formation (late coniacian–satonian), sw iran (onshore and offshore): Rivista Italiana di Paleontologia e Stratigrafia, 130, 487-506.[51] SCHMUKER, B., 2000, The influence of shelf vicinity on the distribution of planktic foraminifera south of Puerto Rico: Marine Geology, 166, 125–143.[52] SEPEHER, M., and COSGROVE, J.W., 2004, Structural framework of the Zagros fold-thrust belt, Iran: Marine and Petroleum Geology, 21, 829-843.[53] SHANMUGAM, G., 2018, Bioturbation and trace fossils in deep-water contourites, turbidites, and hyperpycnites: A cautionary note: Journal of Indian Association of Sedimentologists, 35,13-32.[54] SHERKATI, S., and LETOUZEY, J., 2004, Variation of structural style and basin evolution in the Central Zagros (Izeh zone and Dezful Embayment), Iran: Marine and Petroleum Geology, 21, 535-[55] STÖCKLIN, J., 1968, Structural history and tectonics of Iran; a review: American Association ofPetroleum Geologist Bulletin, 52, 1229-1258. Petrography, mineralogy and clay minerals, An attempt to reservoir characterization of Shurjeh reservoir, Gonbadli Gas Field AlirezaBashariBijhanMostaghel12302024809510.66224/ispg.48274.13.26.80http://journal.ispg.ir/en/Article/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274http://journal.ispg.ir/en/Article/Download/48274 [1] مستقل. ب.، 1383 کار برد انالیز و مدل سازی استوکاستیک ( ناقاطع) در خلال مطالعات جامع ویژگیهای مخزن گازی گنبدلی ( مرز ایران ترکمنستان) پایان نامه دکترا ، دانشگاه آزاد اسلامی ، واحد علوم تحقیقات.[2] مستقل، ب.، بشری ع. و خاکزاد، ا.، كاربرد آناليز و مدل سازي استوكاستيك ( ناقاطع ) در خلال مطالعات جامع ويژگيهاي مخزن گازي گنبدلي ( مرز ايران و تركمنستان ) مجله علمی پژوهشی علوم پایه دانشگاه ازاد اسلامي تهران، سال پانزدهم، پاییز 1384 شماره 57 ، پاییز 1384، ص 327-340، [3] دهکار، ع.، بشری، ع.، و اصلانی، س.، مطالعه ژیوشیمیایی و پتروفیزیکی بروی کانی های رسی بخش E سازند قم ، میدان گازی سراجه قم، نشریه علمی-پژوهشی زمین شناسی نفت ایران ، سال اول ، شماره 2 ، پاییز-زمستان 1390 ص 35 -47.[4] دهقانی، ز.، سلیمانی ، ب،. ارزیابی ژئوشیمیایی و محیط رسوبی واحدهای شیلی سازند پابده -گورپی و تاثیر کانیهای رسی در پایداری دیواره چاه، مطالعه موردی: میدان نفتی آغاجاری ، نشریه علمی-پژوهشی زمین شناسی نفت ایران، سال دوازدهم، شماره 23، بهار و تابستان 1401ص106- 128 [5] Afshar Harb , A., 1979. The Stratigraphy, Tectonics and Petroleum geology of Kopet- Dagh region, North Iran, Ph.D thesis, petroleum geology section , Royal school of mines Imperial college, London. [6] Mohtadi Haghighi, J., 1987. An investigation on Gas-bearing sandstones in Shurijeh formation , GONBADLI structure, D- Zone.NIOC-EXP . [7] Moussavi-harami,R& Bernner,R.L ., 1990. Lower Cretaceous( Neocomian) fluvial deposits in eastern Kopet-dagh basin, N-E of Iran: Cretaceous Research, v.11, p.163174 [8] Mostaghel., B, Bashari, A., & Khakzad., A., Application of Stochastic Analysis & Modelling through Integrated Reservoir Characterization in Gonbadli Gas field (North Eastern of the Iran), (66th EAGE Conference & Exhibition, 6-10 June, 2004, Paris). [9] Bashari, A., Mostaghel., B & Khakzad., A., َApplication of Stochastic Analysis & Modelling through Integrated Reservoir Characterization in Gonbadli Gas field, North Eastern of the Iran, (AAPG International Conference & Exhibition Oct 24-27 2004, Cancun, Mexico).[10] Bashari, A., Mostaghel., B , Khakzad., A., Amin Sobhani, A,. Application of Stochastic Analysis & Modelling through Integrated Reservoir Characterization in Gonbadli Gas field, North Eastern of the Iran, ( 32nd International Geological Congress, Florence_Italy August 20-28, 2004).(11). Bashari , Alireza., 2000. Petrography and clay mineralogy of Volcanoclastic Sandstones in the Rewan Group, Southern, Bowen Basin, Australia, (Journal of Petroleum Geoscience, Vol.6, pp.151-163). (12) Bashari, A., An attempt to reservoir characterization of Burgan sand, in the northwest of the Persian Gulf toward Kuwait (Iranian Journal of Petroleum Geology, No. 18, Autumn & Winter 2019, pp.102-120). M.Mckineley, R.H.Worden & A.H. Ruffel,. 2003. Smectite in [13] Sandstones : A review of Controls on Occurrence and Behaviour during Diagenesis, Int. Assoc.Sedimental.Spec.Publ.( 2003) 34, 109-128Folk, R.L.1980Petrology of Sedimentary Rocks.Hemphill, Austin, Texas [14] Determination of Sequence Boundaries and Surfaces Extent in the Kazhdumi Formation Based on Seismic Sequence StratigraphyMiladGoudarziMohammadfaridGhasemiAbbas SadeghiAhmad Yahyaei12302024637910.66224/ispg.48477.13.26.63http://journal.ispg.ir/en/Article/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477http://journal.ispg.ir/en/Article/Download/48477سعدی راد، فاطمه، موسوی حرمی، سیدرضا، و محبوبی، اسداله. (1393). چینه نگاری سکانسی سازند کژدمی در میدان نفتی آزادگان. پژوهش نفت، 24(77)، 26-33 ص. Sadi Rad, F., Mousavi Harami, S. R., & Mahbobi, A. (2014). Sequence stratigraphy of the Kazhdumi Formation in the Azadegan oil field. Petroleum Research, 24(77).pp. 26-33 مددی، ع.، 1375."مطالعه مطالعات اکتشافی ناحیه خلیج فارس"گزارش داخلی شرکت نفت فلات قاره. 7 و11 ص. Madadi, A., 1996. "Exploration Studies Project of the Persian Gulf Region," Internal Report, Iranian Offshore Oil Company. pp. 7-11. مطيعي. ه، 1372. زمين¬شناسي ایران- چينه¬شناسي زاگرس: انتشارات سازمان زمين¬شناسي کشور. 583 ص. Motiei, H., 1993. Geology of Iran - Stratigraphy of Zagros: Geological Survey of Iran Publications. 583 pp Alsharhan, A. (1994). "Albian Clastics in the Western Arabian Gulf Region: a Sedimentological and Petroleum‐Geological Interpretation." Journal of Petroleum geology 17(3): 279-300. Biddle, K. T., et al. (1992). "Seismic model of a progradational carbonate platform, Picco di Vallandro, the Dolomites, Northern Italy." AAPG bulletin 76(1): 14-30. Catuneanu, D. (2006). "Principles of sequence stratigraphy: Elsevier radarweg publishing. 29." PO Box 211(1000): 42-54 Catuneanu, O. (2020). Sequence stratigraphy. Regional Geology and Tectonics, Elsevier: 605-686. DiSiena, J., et al. (1984). "Horizontal components and shear wave analysis of three-component VSP data." Vertical Seismic Profiling, Part B: Advanced Concepts edited by M. Nafi Toksoz and Robert R. Stewart. Emery, D. and K. Myers (2009). Sequence stratigraphy, John Wiley & Sons. Ghazban, F. (2007). Petroleum geology of the Persian Gulf. Joint publication, Tehran University Press and National Iranian Oil Company, Tehran. Miall, A. D. (2010). The geology of stratigraphic sequences, Springer Science & Business Media. Mitchum Jr, R. and P. Vail (1977). "Seismic stratigraphy and global changes of sea level: Part 7. Seismic stratigraphic interpretation procedure: Section 2. Application of seismic reflection configuration to stratigraphic interpretation." Mohtashami. T, Fathi. A and Kazemi. K, (2013). "2D & 3D seismic interpretation, Geology, petrophysics and preliminary Petroleum engineering For 12 Exploration fields."p 9 Serra, O. and L. Serra (2004). "Well Logging. Data Acquisitions and Applications. Posamentier, H. W. and P. Vail (1988). "Eustatic controls on clastic deposition II—sequence and systems tract models. Rezaie Faramani, E., et al. (2019). "Constrained Seismic Sequence Stratigraphy of Asmari-Kajhdumi interval with well-log Data." Iranian Journal of Geophysics 12(5): 82-94. Sonneland, L., et al. (1989). Application of seismic wave field attributes in reservoir characterization. SEG Technical Program Expanded Abstracts 1989, Society of Exploration Geophysicists: 813-817. Sloss, L. L. (1963). "Sequences in the cratonic interior of North America." Geological Society of America Bulletin 74(2): 93-114 Van Wagoner, J. C., et al. (1990). "Siliciclastic sequence stratigraphy in well logs, cores, and outcrops: concepts for high-resolution correlation of time and facies." Vail, P., et al. (1977). "Seismic stratigraphy and global changes of sea level: Part 3. Relative changes of sea level from Coastal Onlap: section 2. Application of seismic reflection Configuration to Stratigrapic Interpretation."