دانشگاه اصفهان پژوهش های چینه نگاری و رسوب شناسی 2008-7888 31 3 2015 09 23 Controlling factors on the reservoir quality of the Asmari Formation: A case study from the Dezful Embayment فاکتورهای کنترل‌کننده‌ کیفیت مخزنی سازند آسماری در یکی از میادین فروافتادگی دزفول 1 18 16851 FA مهدی دارائی دانشجوی دکتری رسوب‌شناسی و سنگ‌شناسی رسوبی، دانشگاه تهران، ایران عبدالحسین امینی استاد رسوب‌شناسی و سنگ‌شناسی رسوبی، دانشگاه تهران، ایران محمد صدیق کارشناس ارشد زمین‌شناسی، شرکت ملی نفت مناطق مرکزی ایران، ایران عباسعلی نیک اندیش کارشناس ارشد زمین‌شناسی، شرکت ملی نفت مناطق مرکزی ایران، ایران Journal Article 2016 06 14  Material & Methods   The study is based on sedimentological and petrophysical data from two wells of a field located in the Dezful Embayment, where the Ahwaz Sandstone Member is present, alongside with some compar able sedimentological data from NW Zagros, where the Kalhur Evaporitic Member is extended. A total of 600 red-stained thin sections, 198 blue-dyed thin sections, and 908 poroperm values were the main data included in this study .     Discussion of Results & Conclusions   Facies analysis shows the Asmari Formation in the studied area is composed of 11 facies, representing three depositional systems. Most of the area was occupied by a carbonate depositional system with a ramp physiography. Meanwhile, in SW Zagros, a marginal marine deltaic system prevailed, and in NW Zagros a tectonically driven evaporitic intrashelf sub-basin was created by a combination of arid climatic condition, sea-level fluctuations and tectonics. In these two sub-basins, the deposition of Ahwaz Sandstone Member and Kalhure Evaporitic Member occurred, respectively.   Based on the findings, the main diagenetic processes affecting the Asmari Formation are micritization, dolomitization, dissolution, cementation, compaction, and minor fracturing. Micritization is a common process in the shoal and lagoonal facies, leading to a more susceptible facies to the later dolomitization. Dolomitization is the most pervasive diagenetic process of the formation, most of which occurred due to early diagenetic evaporative models (seepage-reflux and sabkha dolomitizations). Dissolution is another early diagenetic event in the strata, which probably happened by evaporitic brines. This process has dominantly produced moldic pores in the formation. Cementation as the main porosity destruction process has taken place in variable mineralogies and fabrics. Dolomite cement is the most widespread cement, precipitated in early diagenesis. Anhydrite cement is the more effective cementation event, influencing the reservoir quality of the formation and normally is the latest generation of the process in the Asmari Formation, succeeding other generations, commonly early diagenetic pore-lining dolomite cement. The cement in most places is in the form of poikilotopic and has patchy distribution, but in some other spaces has occurred as pervasive and pore-filling cement with even distribution, leading to a notable reduction in porosity. Compaction has taken place as both physical and chemical ones in the formation. Fitted fabrics and stylolites are the most prominent evidence for the chemical compaction, which are traceable in the shoal and grainy facies.   According to the results, the reservoir quality of the siliciclastic-dominated part of the formation was primarily controlled by depositional factors, especially lithology, but the carbonate part by diagenetic factors, particularly compaction, dolomitization, dissolution and anhydrite cementation. Generally, owing to moldic and vuggy porosities created by diagenetic dissolution, the carbonate-dominated part of the Asmari Formation has high storage capacity , where the pores make a separate network, because of the lacking of connection between them. Consequently, dissolution has had no effect on permeability and thus on flow capacity. In the strata, high flow capacity is extremely related to fracturing. In other words, where fracturing has occurred, the capacity is high and vice versa. The main porosity destruction process in the field is anhydrite cementation, which is more common in the oolitic shoal facies.   این مطالعه به نقش فرایندهای رسوبی و دیاژنزی در کنترل کیفیت مخزنی سازند آسماری در یکی از میادین فروافتادگی دزفول، جایی که عضو ماسه‌سنگی اهواز گسترش قابل توجهی داشته و به سازند ویژگی مختلط (کربناتی- آواری) داده است، می‌پردازد. بدین منظور، از داده‌های رسوب‌شناسی و پتروفیزیکی دو چاه در میدان مذکور استفاده شده است و برای درک بهتر نقش تغییرات محیطی و دیاژنزی، از داده‌های 6 برش سطح‌الارضی واقع در شمال غرب زاگرس نیز استفاده گردیده است. بر اساس یافته‌های این مطالعه، کیفیت مخزنی سازند آسماری در بخش آواری میدان مذکور، توسط شرایط محیطی، به‌ویژه تغییرات رخساره‌ای و در بخش کربناتی، توسط فاکتورهای دیاژنزی، به‌ویژه دولومیتی‌شدن، انحلال و سیمانی‌شدن سولفاتی کنترل شده است. به صورت کلی، سازند آسماری در بخش کربناتی خود به دلیل تخلخل‌های قالبی و حفره‌ای حاصل از انحلال، دارای ظرفیت ذخیره بالایی است ولی ظرفیت جریان تنها در صورت وجود شکستگی‌ها افزایش یافته است. مهم‌ترین فرایند کاهنده‌ تخلخل و تراوایی نیز در این میدان، سیمانی‌شدنِ سولفاتی تشخیص داده شده است که به‌ویژه اثرات آن در رخساره اُاُئیدی متعلق به زیر محیط سد قابل ملاحظه است.    https://jssr.ui.ac.ir/article_16851_95221343a98475926f39cbd8849b1215.pdf