Tytuł artykułu
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The Guantao Formation is the most important reservoir with significant faces developed, and this is different from the near-source accumulation of Nanpu sag. Guantao Formation in Matouying Uplift was found far away from the source area, which is a typical accumulation outside sources. What is the difference on accumulation condition and main controlling factors between the far-source accumulation and near-source accumulation? And what is the reasonable explanation for these reservoirs? According to the main controlling factors of Guantao Formation reservoir in Matouying Uplift, the abundant accumulation in hydrocarbon generation sag, efficient transport system and good spatial and temporal configuration of reservoir cap rock are the main controlling factors for its hydrocarbon accumulation outside sources. The hydrocarbon movement follows a migration model when it passes through a multiple faulted terrace zone and an effective connection to faults has an increase in the hydrocarbon abundance. The determination of oil sources and the correct understanding of the transport system are the keys to the reservoir understanding of the Guantao Formation in Matouying Uplift, as well as to the establishment of the reservoir model and the prediction of favorable oil and gas development areas. It provides enlightenment for the exploration of reservoir outside sources in peripheral convex and although oil and gas displays have been seen during single-well drilling, no large-scale reservoirs have been discovered until the industrial flow of oil and the results enrich the future exploration trend and potential areas in the uplift around the Nazione and Npu sag are determined.
Wydawca
Czasopismo
Rocznik
Tom
Strony
1427--1437
Opis fizyczny
Bibliogr. 60 poz., rys.
Twórcy
autor
- School of Geoscience and Technology, Southwest Petroleum University, Chengdu 610500, Sichuan, China
autor
- School of Geoscience and Technology, Southwest Petroleum University, Chengdu 610500, Sichuan, China
autor
- School of Geoscience and Technology, Southwest Petroleum University, Chengdu 610500, Sichuan, China
- Department of Railway Engineering, Sichuan College of Architectural Technology, Chengdu 610399, Sichuan, China
autor
- Exploration and Development Research Institute, Jidong Oilfield Company, PetroChina, Tangshan 063000, Hebei, China
autor
- Exploration and Development Research Institute, Jidong Oilfield Company, PetroChina, Tangshan 063000, Hebei, China
Bibliografia
- 1. Anping H, Anjiang S, Hanxuan YJZ, Xin W, Liu Y, Shaoxing M (2019) Dolomite genesis and reservoir-cap rock assemblage in carbonate-evaporite paragenesis system. Pet Explor Dev 46(5):969–982
- 2. Benzhong X, Jinfeng W, Yanlei D, Qian MA, JianGuo Z (2013) Sedimentary characteristics, origin and model of lacustrine deep-water massive sandstone: an example from Dongying Formation in Nanpu Depression. Acta Petrol Sin 29(9):3287–3299
- 3. Bi H, Li P, Jiang Y, Fan JJ, Chen XY (2021) Effective source rock selection and oil–source correlation in the Western Slope of the northern Songliao Basin. China Pet Sci 18(2):398–415
- 4. Bourdet J, Kempton RH, Dyja-Person V, Pironon J, Gong S, Ross AS (2020) Constraining the timing and evolution of hydrocarbon migration in the Bight Basin. Mar Pet Geol 114:104193
- 5. Changgui XU, Jingsong PENG, Qingxun WU, Zhe SUN, Tao YE (2019) Vertical dominant migration channel and hydrocarbon migration in complex fault zone, Bohai Bay sag, China. Pet Explor Dev 46(4):720–728
- 6. Cheng Z, Xinong X, Gongcheng Z (2005) Hydrocarbon migration pathways and their trace analysis in the BZ25-1 area. Geol Sci Technol Inf 24(2):27–32
- 7. Ding ZW, Wang RJ, Chen FF, Yang JP, Zhu ZQ, Yang ZM, Sun XH, Li Y (2020) Origin, hydrocarbon accumulation and oil-gas enrichment of fault-karst carbonate reservoirs: a case study of Ordovician carbonate reservoirs in South Tahe area of Halahatang oilfield, Tarim Basin. Pet Explor Dev 47(2):306–317
- 8. Dong YX, Wang ZC, Zheng HJ, Xu AN (2008) Control of strike-slip faulting on reservoir formation of oil and gas in Nanpu Sag. Pet Explor Dev 35(4):424–430
- 9. Fan CH, Li H, Qin QR, He S, Zhong C (2020) Geological conditions and exploration potential of shale gas reservoir in Wufeng and Longmaxi Formation of southeastern Sichuan Basin, China. J Petrol Sci Eng 191: 107138
- 10. Fu JH (2002) Pool-forming mechanism of the Xiakou faulted zone in the Huimin depression. Pet Geol Exp 24(2):136–140
- 11. Fu S, Liao Z, Chen A, Chen H (2020) Reservoir characteristics and multi-stage hydrocarbon accumulation of the Upper Triassic Yanchang Formation in the southwestern Ordos Basin, NW China. Energy Explor Exploit 38(2):348–371
- 12. Hao X, Chen H, Yang S, Zhuo Q, Xiong W (2005) Study on effective passage system in Liangjialou Oilfiel, Dongying depression. Geol J China Univ 11(1):1–8
- 13. Hou GT, Qian XL, Song XM (1998) The origin of the Bohai bay basin. Acta Sci Nat Univ Pekin 34:503–509
- 14. Jia H, Liu T, Ji H, Meng X, Yu J (2021) Fan-delta facies architecture, morphological evolution and sediment delivery in the Oligocene Dongying Formation of the Nanpu Sag, Bohai Bay Basin, China. Aust J Earth Sci 68(8):1201–1214
- 15. Jiang H, Wang H, Lin ZL, Fang XX, Zhao S, Ren GY (2009) Periodic rifting activity and its controlling on sedimentary filling of Paleogene period in Nanpu Sag. Acta Sedimentol Sin 27(5):976–982
- 16. Jingsong PENG, Changgui XU, Ajuan WEI, Yuechuan WANG, Bingjie WANG, Yonghua GUO, Zhang J, Xin WANG (2016) Hydrocarbon migration caused by rupture of pressure compartment in south Liaozhong sag, Bohai Bay Basin. Offshore China Pet Explor Dev 43(3):425–434
- 17. Karimpouli S, Hassani H, Malehmir A, Nabi-Bidhendi M, Khoshdel H (2013) Understanding the fracture role on hydrocarbon accumulation and distribution using seismic data: a case study on a carbonate reservoir from Iran. J Appl Geophys 96:98–106
- 18. Lan X, Lü X, Zhu Y, Yu H (2015) The geometry and origin of strike-slip faults cutting the Tazhong low rise megaanticline (central uplift, Tarim Basin, China) and their control on hydrocarbon distribution in carbonate reservoirs. J Nat Gas Sci Eng 22:633–645
- 19. Li H (2022) Research progress on evaluation methods and factors influencing shale brittleness: a review. Energy Rep 8:4344–4358
- 20. Li S, Wang T (1998) Geochemical characteristics and genetic type of crude oils in Baigezhuang area. Geoscience 12(02):262–268
- 21. Li H, Tang HM, Qin QR, Zhou JL, Qin ZJ, Fan CH, Su PD, Wang Q, Zhong C (2019) Characteristics, formation stages and genetic mechanisms of tectonic fractures in the tight gas sandstones reservoir: A case study of Xujiahe Formation in YB area, Sichuan Basin, China. J Petrol Sci Eng 178:723–735
- 22. Li H, Qin QR, Zhang BJ, Ge XY, Hu X, Fan CH, Tang HM (2020) Tectonic fracture formation and distribution in ultradeep marine carbonate gas reservoirs: a case study of the Maokou Formation in the Jiulongshan Gas Field, Sichuan Basin, Southwest China. Energy Fuel 34(11):14132–14146
- 23. Liu YH, Zhou HM, Xiong BX, Li YL, He HQ (2000) Analysis of petroleum system in Nanpu sag. Oil Gas Geol 21(4):364–365
- 24. Liu J, Wang X, Zhao Z et al (2014) Tectonic-sedimentary characteristics and their influences on the forming of lithologic hydrocarbon reservoirs in the Shichang Subsag of the Nanpu Sag. Oil Gas Geol 35(05):601–608
- 25. Liu JS, Yang HM, Xu K., Wang ZM, Liu XY, Cui LJ, Zhang GJ, Liu Y (2022) Genetic mechanism of transfer zones in rift basins: Insights from geomechanical models. GSA Bull. https://doi.org/10.1130/B36151.1
- 26. Mei L, Zhang Z, Wang X et al (2008) Geochemical characteristics of crude oil and oil–source correlation in Nanpu sag, Bohai Bay Basin. J China Univ Pet Ed Nat Sci 32(6):40–46
- 27. Mou W, Zhang Z, Li S, Yan C, Guo R, Zhang J, Li S (2019) The application of sterane in the oil-sources correlation of near-source and multi-source: a case study of CH-8 oil reservoir in Central Ordos Basin, China. Pet Sci Technol 37(6):701–709
- 28. Mu LH (2003) Sequence stratigraphy and lithofacies palaeogeography of the Shahejie Formation of paleogene in Liuzan Oilfield, Eastern Hebei Province. J Palaeogeogr 5(3):304–315
- 29. Qie L, Shi YN, Liu JG (2021) Experimental study on grouting diffusion of gangue solid filling bulk materials. J Min Strata Control Eng 3(2):023011
- 30. Ren S (2011) The study of hydrocarbom accumulation of Mesozoic in Laoting depression, Bohai Bay basin. China University of Geosciences, Beijing
- 31. Ren YF (2020) Analysis and evaluation method for supporting ability of supports in coalmine working face. J Min Strat Control Eng 2(3):036012
- 32. Shan SC, Wu YZ, Fu YK, Zhou PH (2021) Shear mechanical properties of anchored rock mass under impact load. J Min Strata Control Eng 3(4):043034
- 33. Shen Y, Jia D, Song GQ, Ding XB, Li MR (2010) Reservoir-forming characters, key control factors and geological evaluation in the area outside oil source—take the Chunguang Oilfield in Chepaizi Uplift in western Junggar Basin as an example. Geol Rev 56(1):51–59
- 34. Shi GZ, Wang H, Xu B, Jiang H (2011) Activity of Baigezhuang fault of Nanpu depression and its controlling on sedimentation. Acta Sci Nat Univ Pekin 47(01):85–90
- 35. Song K, Yao L (2020) Study on the characteristics of gas-generating reservoir-caprock assemblages and gas traps in coal measures in Fuxin Basin. In: IOP conference series: earth and environmental science, vol 558, no 2. IOP Publishing, p 022002
- 36. Tian Y, Shi W, Wang G et al (2021) Low-amplitural imaging on numerical simulation and physical modeling. Oil Geophys Prospect 56(01):100–108
- 37. Tong H, Zhao B, Cao Z, Liu G, Dun XM, Zhao D (2013) Structural analysis of faulting system origin in the Nanpu Sag, Bohai Bay Basin. Acta Geol Sin 87(11):1647–1661
- 38. Tongwen S, Yanfang L, Zongbao L, Xiaofei F, Guang F (2011) Hydrocarbon migration and enrichment features of the Fuyu oil layer to the east of the Daqing placanticline. Pet Explor Dev 38(6):700–707
- 39. Wang S (2015) Identification method of low amplitude structure in Matouying bump salience. Pet Geol Eng 29:5–7
- 40. Wang J, Wang XL (2021) Seepage characteristic and fracture development of protected seam caused by mining protecting strata. J Min Strata Control Eng 3(3):033511
- 41. Wang Y, Liu L, Ji H, Song G, Wang X, Sheng Y (2019) Structure of a pre-Triassic unconformity and its hydrocarbon transporting characteristics, Wuerhe-Fengnan area, Junggar Basin, China. J Petrol Sci Eng 173:820–834
- 42. Wang P, Wang X, Yong Y et al (2020) Velocity modeling of the low-relief structure in the Matouying area of Jidong Oilfield. Oil Geophys Prospect 55(04):766–773
- 43. Wang F, Chen D, Wang Q, Shi X, Xie G, WangLiLiao ZJW (2020) Evolution characteristics of transtensional faults and their impacts on hydrocarbon migration and accumulation: A case study from the Huimin Depression, Bohai Bay Basin, eastern China. Mar Pet Geol 120:104507
- 44. Wang D, Wu Z, Yang L, Li W, He C (2021) Influence of two-phase extension on the fault network and its impact on hydrocarbon migration in the Linnan sag, Bohai Bay Basin, East China. J Struct Geol 145:104289
- 45. Xia YX, Lu C, Yang GY, Su SJ, Pang LN, Ding GL, Su B (2020) Experimental study on axial fracture cutting and fracturing of abrasive jet in hard roof hole. J Min Strata Control Eng 2(3):033522
- 46. Yang W, Liu G, Liu X, Feng Y, Du Y, Cheng D (2013) The accumulation mechanism and accumulation models of oil in low permeability reservoir of Yanchang Formation in Longdong Area, Ordos Basin. Earth Sci Front 20:132–139
- 47. Yang Y, Wu S, Qi L (2014) Study on microfacies architecture of fan delta in Es3 3 reservoir of Liuzan Oilfield, Nanpu Sag. J xi’an Shiyou Univ Nat Sci Ed 29(05):21–30
- 48. Zhang WC, He L, Li HJ, Meng YL, Yang FB (2008) Genesis and distribution of secondary porosity in the deep horizon of Gaoliu area, Nanpu Sag. Pet Explor Dev 35(3):308–312
- 49. Zhang SW, Lin HX, Shen Y (2013) Analysis on meshwork-carpet poolforming mechanism of Chepaizi Uplift and enlightenment on petroleum exploration of Junggar Basin. Geol Rev 59(3):489–500
- 50. Zhang J, Yang G, Wu J, Wu X, Wang F (2017) Genesis and distribution characteristics of sandstone bodies in the Guantao Formation of Matouying Uplift, Huanghua depression. J Jilin Univ Earth Sci Ed 47:48–60
- 51. Zhang BL, Shen BT, Zhang JH, Zhang XG (2020) Experimental study of edge-opened cracks propagation in rocklike materials. J Min Strata Control Eng 2(3):033035
- 52. Zhao Y (2014) The analysis hydrocarbon accumulation conditions of the Buried hill in Matouying-uplift-belt in Huanghua depression. China University of Geosciences, Beijing
- 53. Zhao ZX, Wang H, Guo QJ (2002) Types of passage system and analysis of evolution of its capabilities in temporal and spatial range. Pet Geol Exp 24(6):527–532
- 54. Zhao KK, Jiang PF, Feng YJ, Sun XD, Cheng LX, Zheng JW (2020) Investigation of the characteristics of hydraulic fracture initiation by using maximum tangential stress criterion. J Min Strata Control Eng 3(2):023520
- 55. Zheng HJ, Dong YX, Wang XD, Zhang SC, Zhang DJ, Zhu GY, Xiong Y, Yu HD (2007a) The generation and characteristics of source rocks in Nanpu oil-rich depression, Bohai Bay Basin. Nat Gas Geosci 18(1):78–83
- 56. Zheng H, Dong YX, Zhu GY, Wang XD, Xiong Y (2007b) High-quality source rocks in Nanpu Sag. Pet Explor Dev 34(4):385
- 57. Zhou S, Bai G, Zhang L, Yang W, Zhao X, Jin F, Wang Q, Shi Y, Li Z, Wang Z, Wang Y (2021) Identifying oil sources in the Wen’an slope of the Baxian depression, the Bohai Bay Basin, north China. Mar Pet Geol 128:104938
- 58. Zhu G, Wang Z, Su J (2013) Geochemical characteristics of high-quality hydrocarbon source rocks in the Nanpu sag of the Bohai Bay Basin, China. Oil Shale 30(2):117
- 59. Zhu W, Wu K, Ke L, Chen K, Liu Z (2021) Study on fault-controlled hydrocarbon migration and accumulation process and models in Zhu I depression. Acta Oceanol Sin 40(2):107–113
- 60. Zhu QY, Dai J, Yun FF, Zhai HH, Zhang M, Feng LR (2022) Dynamic response and fracture characteristics of granite under microwave irradiation. J Min Strata Control Eng 4(1):019921
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-29768691-ef84-4855-a73a-897e4a1b9fa5