B Alizadeh; R. Fouladvand
Abstract
The main goal of this study is to introduce a paleo high in the central part of Binak oilfield using geochemical parameters. Despite the effect of this phenomena on sedimentation, due to its low amplitude of uplift and lack of unconformity, so far remained unknown in this oilfield. Seismic and well log ...
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The main goal of this study is to introduce a paleo high in the central part of Binak oilfield using geochemical parameters. Despite the effect of this phenomena on sedimentation, due to its low amplitude of uplift and lack of unconformity, so far remained unknown in this oilfield. Seismic and well log data reveal that, Binak oilfield is an asymmetrical anticline with Bangestan reservoir of about 22 km long and 10 km wide. To investigate the paleo high in the oil field, geochemical analyses were performed on the cutting samples by Rock Eval 6 Pyrolysis, Vitrinite reflectance measurement and finally Pars Basin Modeler software was used for thermal modeling. The results of Rock-Eval analysis demonstrate that the quantity of total organic carbon decreases in all the Kazhdumi, Lafan, Gurpi and Pabdeh Formations towards the center of this anticline. This phenomenon reveals that the environment and condition of sedimentation have been oxidation and shallow for these formations during their deposit history in the center. This can be explained by development of an uplift along Kharg - Mish basement fault starting at or before Albian to Cenomanian time. The Kazhdumi Formation in well number four indicates a drastic change in the geochemical data in compare to other formations as well as the same formation in well number seven. This can also be correlated to remarkable increase in the activities of Kharg-Mish Fault during Albian. On the other hand significant temperature anomalies are often observed close to the faults and there is a direct relationship between basement fault, high thermal gradient and paleo highs. Therefore, thermal modeling was performed to understand thermal history of this oilfield using PBM (Pars Basin Modeler) software. The results indicate that, the amount of heat flow must be 80, 76, 66 and 60 mW/m2 for well numbers 2, 4, 6 and 7 respectively for achievement of the best fit between calculated Vitrinite reflectances as well as Tmax parameters and the same parameters actually measured by geochemical analyses. Consequently, this study reveals that there is a paleo high in the centre and along the Kharg – Mish Fault of the oil field which caused low content of TOC and naturally lower potential for hydrocarbon generation in the middle part of the oilfield. Finally considering the reservoir in the Binak oilfield, since in the central part is shallower due to the paleo high, there is more Rudist presence and higher oil production in the central part of the oilfield.
E. Asadi Mehmandosti; B. Alizadeh; M. H. Adabi
Abstract
Marun Oilfield is one of the main Iranian Oilfield in Dezful Embayment, Zagros area which was studied geochemically in this paper. Forty three samples from different source and reservoir rocks include Garue, Gadvan, Dariyan, Kazhdumi, Sarvak, Gurpi and Pabdeh formations from different oil wells were ...
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Marun Oilfield is one of the main Iranian Oilfield in Dezful Embayment, Zagros area which was studied geochemically in this paper. Forty three samples from different source and reservoir rocks include Garue, Gadvan, Dariyan, Kazhdumi, Sarvak, Gurpi and Pabdeh formations from different oil wells were analyzed by Rock Eval VI. In addition, 23 selected extract bitumens and 6 crude oils of Bangestan and Khami reservoirs were studied by Liquid Chromatography and Gas Chromatography to compare with each other. Rock Eval data showed that Kazhdumi and Pabdeh formations with average TOC of 4.13 wt% and more than 12 mg HC/g rock amount of S2 had high hydrocarbon potential regard to other samples. HI vs. Tmax and S2 vs. TOC diagrams indicated that the Type II kerogen was the main type of kerogen in studied samples. Furthermore, Garue, Gadvan and Kazhdumi samples have high thermal maturity in compare with other samples. Also, variations of PI and Tmax versus depth indicate that Pabdeh and Gurpi samples had less thermal maturity in compare with Kazhdumi and Garue samples. Chromatograms study and variation of Pr/nC17 and Ph/nC18 indicate that studied samples have no or little evidence of biodegradation and crude oils of Bangestane and Khami reservoirs was formed in anoxic environment from the source rock with type II kerogen.
B. Alizadeh; S. H. Hosseini
Abstract
Sargelu Formation is deeply buried and has limited distribution in Dezful Embayment (limited to the northern part), hence, investigation of petroleum potential of this formation has attracted many petroleum geologists. In this study, hydrocarbon potential of Sargelu Formation in Northern Dezful Embayment ...
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Sargelu Formation is deeply buried and has limited distribution in Dezful Embayment (limited to the northern part), hence, investigation of petroleum potential of this formation has attracted many petroleum geologists. In this study, hydrocarbon potential of Sargelu Formation in Northern Dezful Embayment is evaluated geochemically. For this purpose 34 drill cuttings from well numbers, 309, 310, 312 and 316 in Masjid-i-Soleiman (MIS) oilfield were selected, and geochemical analyses such as Rock-Eval VI pyrolysis and PY-GC were performed. The results reveal that the formation has “Very Good” hydrocarbon potential because of its high amounts of Total Organic Carbon (TOC). Results were plotted on Van-Krevelen as well as on HI vs. Tmax diagrams, and demonstrated mixed Kerogen Type III and IV due to low HI caused by higher thermal maturity, in well numbers 309, 310 and 312. However, the prominent Kerogen type was determined to be of mixed Kerogen type II and III. In all, the organic matter in well No. 316 has a better Kerogen type (mixed type II and III). All the Samples plotted on Smith Diagram have more than 0.1 S1/TOC ratios and capable of generating hydrocarbon. The Pr/nC17 vs. Ph/nC18 ratio demonstrates marine environment for Sargelu Formation. Pyro and thermograms reveal that normal alkanes are dominated in C15 – C20 range, while heavy normal alkanes are missing due to its high thermal maturity. In all it can be concluded that Sargelu Formation in MIS oilfield, due to its paleoenvironment as well as burial depth exclusively has a good quality of organic matter with adequate maturity at the end of oil window and hence is gas-prone.