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Journal articles on the topic 'Oil and gas basin'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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1

Zhang, Jing Jun, and Cheng Zhi Liu. "Research Progress on Volcanic Rock Reservoirs Based on Properties of Energy Materials in Songliao Basin." Advanced Materials Research 703 (June 2013): 123–26. http://dx.doi.org/10.4028/www.scientific.net/amr.703.123.

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Properties of Energy Materials (oil and gas) is very complex and important. In recent years, in Chinese eastern, western and mid continental basins, multiple rock oil and gas fields are found, such as Songliao Basin, Bohai Bay Basin, Erlian Basin, Tuha Basin, Junggar Basin, Sichuan Basin. Volcanic rock reservoir with its rich oil and gas resources, tremendous development potential, has aroused the domestic and foreign experts and scholars attention, volcanic rock oil and gas exploration theory and technology has been rapid development. In order to understand volcanic rock reservoir from the or
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2

Clenton, P. N. "THE SNAPPER DEVELOPMENT, GIPPSLAND BASIN." APPEA Journal 28, no. 1 (1988): 29. http://dx.doi.org/10.1071/aj87003.

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The Eocene N-I reservoir at the top of the Latrobe Group at Snapper is the second largest gas accumulation discovered to date in the Gippsland Basin. Oil reserves exist in a four to eight metre oil leg below this gas pool and in various small intra-Latrobe Group reservoirs.Development drilling took place in two phases, between 1981 and 1987, with exploitation of the N-I gas reserves being the long term aim. However, initial emphasis has been to maximise production from the N-I oil column. This was the first significant development of a thin oil column in the Gippsland Basin and required detail
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3

Zhang, Jingkun, Jian Cao, Yan Wang, et al. "Geochemistry and Genesis of Oil and Gas Seeps in the Junggar Basin, NW China: Implications for Hybrid Petroleum Systems." Geofluids 2019 (August 1, 2019): 1–26. http://dx.doi.org/10.1155/2019/9732674.

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The Junggar Basin of NW China is representative in containing oil and gas seeps worldwide as there are a wide variety of oil and gas seeps over a large area. However, the genesis of these seeps remains poorly known, limiting the understanding of their implications for petroluem geology and hydrocarbon exploration. Here, we investigate 26 samples of oil and gas seeps from nine outcrops within five areas along the margins of the Junggar Basin to determine the geochemical characteristics of the hydrocarbons, constrain their genesis, and discuss future exploration strategies. Results indicate one
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Liu, Yanzhao, Zhanli Ren, Kai Qi, et al. "Characteristics of Fluid Inclusions and Hydrocarbon Accumulation Stages of Carbonate Rock Reservoir: A Case Study from the Majiagou Formation Ordovician, Central and Eastern Ordos Basin." Minerals 15, no. 2 (2025): 139. https://doi.org/10.3390/min15020139.

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The Ordovician carbonate formations in the Ordos Basin provide a crucial stratigraphic unit for prospective oil and gas exploration. Significant progress has been made in the exploration of natural gas within the Ordovician subsalt formations. Nonetheless, understanding its accumulating properties requires additional investigation. Clarifying the formation periods of the carbonate rock reservoirs in the Majiagou Formation of the basin can furnish a theoretical foundation for advanced exploration of carbonate rock oil and gas. This study uses fluid inclusion petrography, laser Raman spectroscop
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Zhijun, Jin, Liu Quanyou, Qiu Nansheng, Ding Feng, and Bai Guoping. "Phase States of Hydrocarbons in Chinese Marine Carbonate Strata and Controlling Factors for Their Formation." Energy Exploration & Exploitation 30, no. 5 (2012): 753–73. http://dx.doi.org/10.1260/0144-5987.30.5.753.

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Chinese marine strata were mainly deposited before the Mesozoic. In the Tarim, Sichuan and Ordos Basins, the marine source rocks are made of sapropelic dark shale, and calcareous shale, and they contain type II kerogen. Because of different burial and geothermal histories, the three basins exhibit different hydrocarbon generation histories and preservation status. In the Tarim Basin, both oil and gas exist, but the Sichuan and Ordos Basins host mainly gas. The Tarim Basin experienced a high heat flow history in the Early Paleozoic. For instance, heat flow in the Late Cambrian varied between 65
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Yue, Yong, Bin Li, Peng Wei, et al. "Secondary Migration Trend Based on Basin Modeling: A Case Study of the Cambrian Petroleum System in the Tarim Basin." Geofluids 2023 (May 2, 2023): 1–21. http://dx.doi.org/10.1155/2023/6459544.

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Secondary hydrocarbon migration is an important aspect of oil-gas accumulation research. While previous studies have relied on geological and fluid geochemical characteristics to predict migration direction, these results are often limited by the number of samples. In recent years, basin simulation has emerged as a valuable tool in hydrocarbon migration research due to its extensive algorithms and adaptable modeling capabilities. It has obvious technical advantages especially for resource evaluation in areas with a lower exploration degree and scarce data. The deep oil and gas in the Cambrian
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7

Moore, P. S., B. J. Burns, J. K. Emmett, and D. A. Guthrie. "INTEGRATED SOURCE, MATURATION AND MIGRATION ANALYSIS, GIPPSLAND BASIN, AUSTRALIA." APPEA Journal 32, no. 1 (1992): 313. http://dx.doi.org/10.1071/aj91025.

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Biomarker geochemistry, maturation modelling and migration pathway analysis have been used in a new, integrated analysis of the Gippsland Basin. The analysis has resulted in the development of a predictive model for hydrocarbon charge and oil versus gas split. The study was carried out in 4 parts: analytical geochemistry, source distribution mapping, maturation modelling and migration pathway analysis.New geochemical biomarker studies confirm a non-marine source for the oils, but place peak oil generation in the upper part of the traditional oil window. Gas in the basin is mainly derived from
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8

Osadetz, Kirk G., Andrew Mort, Lloyd R. Snowdon, Donald C. Lawton, Zhuoheng Chen, and Amin Saeedfar. "Western Canada Sedimentary Basin petroleum systems: A working and evolving paradigm." Interpretation 6, no. 2 (2018): SE63—SE98. http://dx.doi.org/10.1190/int-2017-0165.1.

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Western Canada Sedimentary Basin (WCSB) crude oil source rocks accumulated typically in “starved” depositional settings of Sloss outer detrital facies belts and lesser stratigraphic cycles. These produced petroleum from marine type II organic matter in response to burial by commonly westward-thickening overlying successions. Oil occurs commonly within the “Sloss” sequence containing its source rock, often up dip from the “petroleum kitchen.” Migration pathways cross stratal contacts, unconformities and structures, and much oil migrated into adjacent sequences, especially into Lower Cretaceous
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9

Liu, Yangjun (Kevin), Michelle Ellis, Mohamed El-Toukhy, and Jonathan Hernandez. "Basin-wide rock-physics analysis in Campeche Basin, Gulf of Mexico — Phase II: Reservoir rock and fluid properties." Leading Edge 40, no. 10 (2021): 716–22. http://dx.doi.org/10.1190/tle40100716.1.

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We present a basin-wide rock-physics analysis of reservoir rocks and fluid properties in Campeche Basin. Reservoir data from discovery wells are analyzed in terms of their relationship between P-wave velocity, density, porosity, clay content, Poisson's ratio (PR), and P-impedance (IP). The fluid properties are computed by using in-situ pressure, temperature, American Petroleum Institute gravity, gas-oil ratio, and volume of gas, oil, and water. Oil- and gas-saturated reservoir sands show strong PR anomalies compared to modeled water sand at equivalent depth. This suggests that PR anomalies can
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10

Beshentsev, V. A., Yu I. Salnikova, R. N. Abdrashitova, and S. V. Vorobjeva. "Hydrogeochemical conditions of oil and gas areas in Yamalo-Nenets oil and gas producing region (Part 1)." Oil and Gas Studies, no. 5 (November 17, 2019): 10–22. http://dx.doi.org/10.31660/0445-0108-2019-5-10-22.

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The object of our research is hydrogeochemical conditions of the Mesozoic hydrogeological basin within Yamalo-Nenets oil and gas bearing region. The Mesozoic basin includes the Aptian-Albian-Cenomanian, Neocomian and Jurassic hydrogeological complexes. These complexes contain thermal and mineralized water. The water exchange in the basin in question is significantly hampered; this is reflected in hydrogeochemical conditions. The article presents the distribution maps of water types in three complexes of the Mesozoic basin, maps of changes in the magnitude of mineralization and the content of t
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Beshentsev, V. A., Yu I. Salnikova, R. N. Abdrashitova, and S. V. Vorobjeva. "Hydrogeochemical conditions of oil and gas areas in Yamalo-Nenets oil and gas producing region (Part 2)." Oil and Gas Studies, no. 6 (March 13, 2020): 19–30. http://dx.doi.org/10.31660/0445-0108-2019-6-19-30.

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The object of our research is hydrogeochemical conditions of the Mesozoic hydrogeological basin within Yamalo-Nenets oil and gas bearing region. The Mesozoic basin includes the Aptian-Albian-Cenomanian, Neocomian and Jurassic hydrogeological complexes. These complexes contain thermal and mineralized water. The water exchange in the basin in question is significantly hampered; this is reflected in hydrogeochemical conditions. The article presents the distribution maps of water types in three complexes of the Mesozoic basin, maps of changes in the magnitude of mineralization and the content of t
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12

Williams, Adrian, and Dave Macey. "HARRIET GAS GATHERING PROJECT, BARROW SUB-BASIN." APPEA Journal 32, no. 1 (1992): 56. http://dx.doi.org/10.1071/aj91006.

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Since start-up of Harriet oil production in early 1986, the TL/1 joint venturers have attempted to find a use for the oil-associated gas as well as other gas from neighbouring small gas fields. Initially, supplies from the North West Shelf Project were well in excess of local demand and acted as a damper on new development projects. With time, however, gas reserves in the Harriet area were augmented through new discoveries and the State's demand grew steadily until, in mid 1990, a new project could be justified. In December 1990, an agreement was reached with the State Energy Commission of Wes
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13

Lavering, L. H., V. L. Passmore, and I. M. Paton. "DISCOVERY AND EXPLOITATION OF NEW OILFIELDS IN THE COOPER-EROMANGA BASINS." APPEA Journal 26, no. 1 (1986): 250. http://dx.doi.org/10.1071/aj85024.

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Since 1975 the level of petroleum exploration in the Cooper-Eromanga basins has undergone an unprecedented expansion due to the discovery and development of an increasing number of oil reservoirs, largely in the Eromanga Basin sequence. The commercial incentive provided by the Commonwealth Government's Import Parity Pricing and excise arrangements have been instrumental in the lead up to and continuation of this series of discoveries.Three types of oil discovery in the Eromanga Basin sequence are evident; firstly, shallow pools above Cooper Basin gas fields; secondly, separate single-field dis
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14

Zajuli, Moh Heri Hermiyanto, Riecca Oktavitania, and Ollybinar Rizkika. "Geokimia Organik Serpih Hidrokarbon Berumur Eosen di Daerah Sumatera Bagian Tengah." Jurnal Geologi dan Sumberdaya Mineral 21, no. 1 (2020): 45. http://dx.doi.org/10.33332/jgsm.geologi.v21i1.499.

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This study focused on the region of Central Sumatra that geologically into the Central and South Sumatra Basin. The subjects were from the Eocene shale in the areas such as the Kasiro, Sinamar, and Kelesa Formation. Shale of Central Sumatra Basin tend to have different characteristics with shale of South Sumatra Basin. Maceral content of vitrinite and liptinit on shale in South Sumatra Basin larger than Central Sumatra Basin shale. Oxic-anoxic conditions affecting to the abundance maceral-maceral in both basins. Shale of the Kasiro Formation have a tend to indicate kerogen type I, and II, whil
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15

Zhou, Zengyuan, Wenxu Peng, Hefeng Sun, Kailong Feng, and Weilin Zhu. "Coupling Relationship between Basin Evolution and Hydrocarbon Reservoirs in the Northern Central Myanmar Basin: Insights from Basin and Petroleum System Modeling." Journal of Marine Science and Engineering 12, no. 9 (2024): 1497. http://dx.doi.org/10.3390/jmse12091497.

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The Myanmar region experienced the subduction of the Indian Ocean plate to the West Burma block and suffered from the land–land collision between the Indian continent and the West Burma block that occurred from the Late Cretaceous to the Cenozoic. Its tectonic evolution has been complex; thus, oil and gas exploration is difficult, and the overall degree of research has been low. Recent exploration has been hindered by a lack of knowledge on the evolution of the petroleum system. To address this, we conducted hydrocarbon generation and accumulation modeling using both the 2D MOVE and Petro-Mod
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16

Wei, Xinzhuo, Keyu Liu, Xianzhang Yang, Jianliang Liu, Lu Zhou, and Xiujian Ding. "Probing Petroleum Sources Using Geochemistry, Multivariate Analysis, and Basin Modeling: A Case Study from the Dibei Gas Field in the Northern Kuqa Foreland Basin, NW China." Applied Sciences 15, no. 5 (2025): 2425. https://doi.org/10.3390/app15052425.

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The Dibei Gas Field, located in the northern Kuqa Foreland Basin, Tarim Basin, western China, is one of the most important condensate gas-producing areas in China, with over one trillion cubic feet of gas reserves discovered in the Jurassic terrestrial reservoirs. However, further hydrocarbon exploration and development in the area is hampered by uncertainties on the petroleum sources. A robust oil–source and gas-source correlation analysis was carried out in the Dibei area to enhance our understanding of the gas accumulation potential. An integrated molecular geochemical analysis, multivariat
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17

Iskaziyev, K. O., P. E. Syngayevski, and S. F. Khafizov. "Deep oil." Kazakhstan journal for oil & gas industry 2, no. 3 (2020): 3–19. http://dx.doi.org/10.54859/kjogi95639.

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Regardless of the direction of development and changes in the energy sector, the Worlds economies will rely primarily on natural resources for at least the next 20 years and very likely beyond. Actually, the resources of hydrocarbons in place in comparison with consumption are almost inexhaustible, so the question is only in the cost of production. For this reason, the exploration for new commercial fields that can withstand price volatility over a long period of time will play a critical role. At the same time, one of the most promising areas is the exploration of the new super-deep (more tha
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18

Luo, Bing, Yu Yang, Gang Zhou, Wenjun Luo, Shujiao Shan, and Maolong Xia. "Basic characteristics and accumulation mechanism of Sinian−Cambrian giant highly mature and oil-cracking gas reservoirs in the Sichuan Basin, SW China." Energy Exploration & Exploitation 36, no. 4 (2017): 568–90. http://dx.doi.org/10.1177/0144598717736856.

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Old Mesoproterozoic−Cambrian successions have been regarded as an important frontier field for global oil and gas exploration in the 21st century. This has been confirmed by a recent natural gas exploration breakthrough in the Sinian and Cambrian strata, central Sichuan Uplift, Sichuan Basin of SW China. However, the accumulation mechanism and enrichment rule of these gases have not been well characterized. This was addressed in this work, with aims to provide important guidance for the further exploration while enriching the general studies of the oil and gas geology in the old Mesoproterozoi
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19

Yin, Wei. "Hydrocarbon Geology Characteristics and Oil & Gas Resource Potential in the Afghan-Tajik Basin." Advanced Materials Research 734-737 (August 2013): 366–72. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.366.

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The Afghan-Tajik Basin is an intermontane depression between the mountain ranges of Gissar and Pamirs, and Jurassic system and Tertiary system are rich in large oil & gas resources. In order to assure sustainable supply of oil & gas from Central Asia, we deeply researched hydrocarbon geology characteristics and resource potentials. The basin belongs to paralic sedimentary environment, and develops 3 sedimentary strata: Jurassic, Cretaceous, and Tertiary. Afghan-Tajik Basin develops 3 main source rocks including clastic rocks of Jurassic, carbonate rocks of Cretaceous and mudstone rocks
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20

Rachinskiy, M. Z., G. V. Chilingar, and M. V. Gorfunkel. "Oil and Gas Potential of South-Caspian Basin." Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 29, no. 15 (2007): 1339–60. http://dx.doi.org/10.1080/15567030701545964.

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21

Lisk, M., S. C. George, R. E. Summons, R. A. Quezada, and G. W. O'Brien. "MAPPING HYDROCARBON CHARGE HISTORIES: DETAILED CHARACTERISATION OF THE SOUTH PEPPER OIL FIELD, CARNARVON BASIN." APPEA Journal 36, no. 1 (1996): 445. http://dx.doi.org/10.1071/aj95024.

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The South Pepper Field is a small hydrocarbon accumulation located in the Barrow Sub-basin, North West Shelf. In this study, an integrated approach has been adopted which uses new analytical approaches, and combines fluid inclusion, micro and conventional GC-MS, stable isotope, mineralogical and petrological data, to allow the accurate reconstruction of the charge history of this field. The micro GC-MS work on oil-bearing fluid inclusions in the reservoir section allows, for the first time, a comparison to be made between the geochemical characteristics of the presently reservoired oil with sa
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22

Hong, M. A., Wang Zhaoming, Wang Lin, et al. "Structural Evolution and Hydrocarbon Accumulation Conditions of the StrikeSlip Pull-Out Basin in the Central African Rift System: A Case Study of the Doseo Basin in Chad." Journal of Oil and Gas Research Reviews 4, no. 1 (2024): 01–12. https://doi.org/10.33140/jogrr.04.01.02.

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Doseo Basin is the key block of CNPC's overseas oil and gas exploration currently in Chad, and important oil and gas discoveries have been made in recent years. Based on the latest drilling and seismic data, utilize geochemical analysis data, this paper systematically analyzes the tectonic evolution and basic petroleum geological conditions and hydrocarbon accumulation in the CNPC’s blocks of Doseo Basin, and identifies the next favorable exploration areas. Three mainly stages of tectonic evolution and three sets of favorable source rocks are mainly developed in Doseo Basin. The Kedeni Formati
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Li, Wenming, Zhendong Gao, Yongdong Wang, Jingyang Pu, Hanlie Cheng, and Fahim Theon. "Geochemical Characteristics of Crude Oil in Member 7 of Yanchang Formation in Yanchang Oilfield." Journal of Chemistry 2022 (October 4, 2022): 1–7. http://dx.doi.org/10.1155/2022/2797655.

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Oil is an important primary energy for national production and life and national defense, and China is the key to rapid development. It is of great strategic significance to ensure the safe and efficient production of the oil industry. Yanchang Oilfield is located in the main position of oil and gas accumulation in Ordos Basin, China, and the seventh member of the Yanchang Formation is the area with the richest crude oil output at present. Studying the geochemical characteristics of its crude oil exploitation is of great engineering significance for the exploration of oil and gas content in si
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van Balen, R. T., F. van Bergen, C. de Leeuw, et al. "Modelling the hydrocarbon generation and migration in the West Netherlands Basin, the Netherlands." Netherlands Journal of Geosciences - Geologie en Mijnbouw 79, no. 1 (2000): 29–44. http://dx.doi.org/10.1017/s0016774600021557.

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AbstractThe hydrocarbon systems of the Mesozoic, inverted West Netherlands Basin have been analyzed using 2-D forward modelling. Three source rocks are considered in the modelling: Lower Jurassic oil-prone shales, Westphalian gas-prone coal deposits, and Lower Namurian oil-prone shales. The Lower Namurian hydrocarbon system of the basin is discussed for the first time.According to the modelling results of the Early Jurassic oil system, the oil accumulations were filled just after the main inversion event. Their predicted locations are in agreement with exploration results. Modelling results of
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Sherwood, Owen A., Jessica D. Rogers, Greg Lackey, Troy L. Burke, Stephen G. Osborn, and Joseph N. Ryan. "Groundwater methane in relation to oil and gas development and shallow coal seams in the Denver-Julesburg Basin of Colorado." Proceedings of the National Academy of Sciences 113, no. 30 (2016): 8391–96. http://dx.doi.org/10.1073/pnas.1523267113.

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Unconventional oil and gas development has generated intense public concerns about potential impacts to groundwater quality. Specific pathways of contamination have been identified; however, overall rates of contamination remain ambiguous. We used an archive of geochemical data collected from 1988 to 2014 to determine the sources and occurrence of groundwater methane in the Denver-Julesburg Basin of northeastern Colorado. This 60,000-km2 region has a 60-y-long history of hydraulic fracturing, with horizontal drilling and high-volume hydraulic fracturing beginning in 2010. Of 924 sampled water
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Krivoshchekov, Sergey, and Andrey Botalov. "Assessment of Oil and Gas Potential in Vychegda Trough in Connection with the Identification of Potential Petroleum Systems." Geosciences 14, no. 3 (2024): 57. http://dx.doi.org/10.3390/geosciences14030057.

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At present, the study of the oil and gas potential of poorly explored areas of oil and gas basins in the Russian Federation is of great importance due to the possibility of discovering large hydrocarbon accumulations in them. The Vychegda Trough in the north of the Volga–Ural basin is considered to be one of such areas. The research is devoted to the assessment of the oil and gas potential of the Vychegda Trough based on the concept of “petroleum systems”, which is widely used in oil and gas geology. A comprehensive analysis of geological and geophysical, petrophysical and geochemical data was
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TURKOV, О. S. "TO THE QUESTION ABOUT DEEP OIL OF THE SOUTH TORGAY BASIN." Neft i gaz 5, no. 119 (2020): 70–83. http://dx.doi.org/10.37878/2708-0080/2020-5.028.

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South Torgai basin is located in the south of and is the youngest oil and gas region discovered in Kazakhstan at the end of the last century. Shallow depths of reservoirs containing high-quality sulfurless oil are the main incentive for a return in the search for new deposits in the basin They are carried out according to the method developed on the basis of the hypothesis of the sedimentary genesis of oil. New data on the structure of the basin and its productivity obtained already at the beginning of the 21st century indicate that deep oil deposits are also found in the basin, which signific
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Thinh, N. T. "Petroleum Potential in the Center of Song Hong Basin of the Northern Continental Shelf Vietnam." Oil and Gas Technologies 132, no. 1 (2021): 25–29. http://dx.doi.org/10.32935/1815-2600-2021-132-1-25-29.

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The sedimentary basin Song Hong is one of the largest Cenozoic oil and gas bearing sedimentary basins, in which the center of the basin covers a large part. It elongates from block 105 to block 115. This article presents the geological structure, history of geological development, oil and gas potential and characteristics of reservoirs f the central basin, where the thickness of the basin deposits reaches more than 16 000 m.
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Zhong, Guang Jian, Da Meng Liu, and Guang Hong Tu. "Petroleum Exploration Potential of Xisha Trough Basin in SCS." Advanced Materials Research 734-737 (August 2013): 1230–34. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.1230.

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Nowadays oil-gas exploration make a great contribution to the world oil-gas reserve increase. A series of deepwater passive continental margin basins are found in Northern Continental Slope of South China Sea. These basins consisted of thick Mesozoic and Cenozoic sedimentary strata with the characteristics of the major world deepwater oil-gas basins. As one of Cenozoic sedimentary basins in deepwater area of Northern Slope of South China Sea, Xisha Trough Basin developed 1500-8000m thick sedimentary strata, which are north-south zoning characteristics of thicker in the center and thinner both
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Yiming, Abilimit, Xiujian Ding, Liangrong Qian, Hailei Liu, Maoguo Hou, and Zhongfa Jiang. "Gas Generation Potential of Permian Oil-Prone Source Rocks and Natural Gas Exploration Potential in the Junggar Basin, NW China." Applied Sciences 12, no. 22 (2022): 11327. http://dx.doi.org/10.3390/app122211327.

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The Junggar Basin, where twenty-seven oil fields and five gas fields have been discovered, is a typical “oil basin” with proven ratio of natural gas of 5.3%. The amount of natural gas from Permian source rocks has been found in the western margin of the basin, but no large-scale natural gas reservoir has been discovered. The key to natural gas exploration is whether Permian oil-prone source rocks have large gas generation potential. Based on the comprehensive analysis of geochemical features and hydrocarbon generation simulation experiments, it is proved that the gas generation intensity could
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Punanova, S. A. "Trace elements of naftides of oil- and gas-bearing basin." Доклады Академии наук 488, no. 5 (2019): 534–38. http://dx.doi.org/10.31857/s0869-56524885534-538.

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The parameters of the concentration distribution of trace elements in the oil fields of oil and gas basins of the world, their physic-chemical properties, as well as the geological and geochemical features of oil formation in these basins were studied. It is shown that the ontogenesis of hydrocarbons associated with deep tectonic transformations (geodynamic factor) controls not only the placement of naphtides in the sedimentary cover, but also the diversity of their metallogenic specialization. The classification of oils of various ontogenesis zones is given in accordance to the degree of thei
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32

Pifer, Ross H., and Chloe J. Marie. "Appalachian Basin–Pennsylvania, West Virginia, and Ohio–Oil and Gas Law Developments." Texas A&M Journal of Property Law 8, no. 3 (2022): 255–73. http://dx.doi.org/10.37419/jpl.v8.i3.2.

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This article addresses oil and gas case law developments that have occurred within the Appalachian Basin’s primary oil and gas producing states of Pennsylvania, West Virginia, and Ohio during 2021 by reviewing opinions issued by the highest appellate courts within each of these three states. The oil and gas law topics addressed by these state supreme courts during 2021 have ranged from those occurring upstream, such as leasing, to those occurring downstream, such as approval of a utility rate increase for the extension of a natural gas pipeline.
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Pifer, Ross H., and Chloe J. Marie. "Appalachian Basin–Pennsylvania, West Virginia, and Ohio–Oil and Gas Law Developments." Texas A&M Journal of Property Law 8, no. 3 (2022): 255–73. http://dx.doi.org/10.37419/jpl.v8.i3.2.

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This article addresses oil and gas case law developments that have occurred within the Appalachian Basin’s primary oil and gas producing states of Pennsylvania, West Virginia, and Ohio during 2021 by reviewing opinions issued by the highest appellate courts within each of these three states. The oil and gas law topics addressed by these state supreme courts during 2021 have ranged from those occurring upstream, such as leasing, to those occurring downstream, such as approval of a utility rate increase for the extension of a natural gas pipeline.
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SLIAUPA, S., R. SLIAUPIENĖ, G. ZALŪDIENĖ, et al. "PROSPECTS OF LITHUANIAN SILURIAN SHALE GAS, BALTIC SEDIMENTARY BASIN." Oil Shale 33, no. 4 (2016): 357. http://dx.doi.org/10.3176/oil.2016.4.04.

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Ahmedov, Kholkhoja Rakhmatullaevich, Hikmat Ahadillaevich Panjiev, and Kuvonchbek Mannonovich Usmonov. "GEOLOGICAL STRUCTURE AND OIL FIELD OF THE AMUDARYO BASIN." EURASIAN JOURNAL OF ACADEMIC RESEARCH 2, no. 3 (2022): 400–406. https://doi.org/10.5281/zenodo.6416563.

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The article provides information on the geological structure and oil and gas content of the Amudarya sub-province, mainly the formation and composition of bedrock and sedimentary rocks, as well as oil and gas complexes and the laws of their distribution.The article provides a brief description of the composition and associated tectonic elements of the Amudarya synclise.
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36

Serikova, U. S., M. A. Allanazarova, and E. Z. Idiyatullina. "Hydrocarbon systems in the Turkmen sector of the South Caspian basin." Proceedings of higher educational establishments. Geology and Exploration, no. 5 (February 5, 2023): 24–40. http://dx.doi.org/10.32454/0016-7762-2022-64-5-24-40.

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Introduction. The paper considers conditions conductive to the formation and location of oil and gas accumulations in the Turkmen sector of the South Caspian Basin.Aim. Modeling of hydrocarbon systems of the Turkmen sector of the South Caspian Basin.Materials and methods. Statistical generalization and systematization of the data and materials presented in reference literature, field sources, and archive data, as well as published works of Sh.F. Mekhtiev, I.S. Guliev, M.Z. Rachinskii, S.S. Dzhibuti, S.A. Aliev, V.Yu. Kerimov, V.V. Kolodiya, etc. Data modeling was performed using the PetroMod s
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Wang, Jianlin, Dan Gillam, Soubhagya Das, Tom Boyle, and Melanie Ryan. "Modelling CO2 storage in oil and gas reservoirs in the Gippsland Basin." Australian Energy Producers Journal 64, no. 2 (2024): S210—S214. http://dx.doi.org/10.1071/ep23212.

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The Gippsland Basin has world class geology for carbon capture and storage (CCS) and a long history of oil and gas production. Depleted oil and gas fields within the Gippsland Basin that are candidates for carbon dioxide (CO2) storage are in close proximity to existing infrastructure that could be repurposed as part of a CCS project. Modelling of CO2 storage in the depleted Bream oil and gas reservoir is being progressed. Bream reservoir properties are very well understood due to extensive geological and geophysical data sets available from wells and seismic data. Additionally, the field has b
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38

Heath, R. "EXPLORATION IN THE COOPER BASIN." APPEA Journal 29, no. 1 (1989): 366. http://dx.doi.org/10.1071/aj88031.

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The Cooper Basin is located in the northeastern corner of South Australia and in the southwestern part of Queensland. The basin constitutes an intracratonic depocentre of Permo- Triassic age. The Cooper Basin succession unconformably overlies Proterozoic basement as well as sediments and metasediments of the Cambro- Ordovician age. An unconformity separates in turn the Cooper succession from the overlying Jurassic- Cretaceous Eromanga Basin sediments.The Permo- Triassic succession comprises several cycles of fluvial sandstones, fluvio- deltaic coal measures and lacustrine shales. The coal meas
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Hung, Nguyen Manh, Hoang Dinh Tien, and Nguyen Viet Ky. "Distribution characteristics of reservoir fluid properties in Cuu Long basin." Tạp chí Khoa học và Công nghệ biển 19, no. 1 (2019): 147–61. http://dx.doi.org/10.15625/1859-3097/19/1/13836.

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Oil and gas have been discovered and produced from Cuu Long basin for more than 20 years however the distribution charateristics according to stratigraphy have not been studied. In this study, data from more than 200 PVT reports of more than 30 discoveries and published reports of previous studies were investigated to find out the distribution characteristics of reservoir fluid properties. The results show that oil and gas in Cuu Long basin mainly follow normal distribution, in some areas they are in redistribution (retrogradation) stage. Saturation pressure, GOR and compressibility are very h
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Su, Yu Bin, and Heng Zheng. "Applied Technology for Tight Oil in Engineering of Oil Manufacturing in the Western Canada Sedimentary Basin." Applied Mechanics and Materials 540 (April 2014): 287–91. http://dx.doi.org/10.4028/www.scientific.net/amm.540.287.

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Canada is the second country after the US to start the shale gas exploration and production in the world. And the Western Canada Sedimentary Basin (WCSB) is known for its rich shale gas reserves. However, with the development of shale gas, it is found that the success of the United States is difficult to replicate. In addition, many oil companies were forced to transfer their focus of exploration and development from shale gas to tight oil for the extended downturn of gas-price in recent years. Afterwards, abundant resources of tight oil were discovered in northeast Alberta located in the West
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41

Thomas, B. M., and C. J. Barber. "A RE-EVALUATION OF THE HYDROCARBON HABITAT OF THE NORTHERN PERTH BASIN." APPEA Journal 44, no. 1 (2004): 59. http://dx.doi.org/10.1071/aj03002.

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Recent oil discoveries at Hovea, Cliff Head, Jingemia and Eremia have challenged the perception that the northern Perth Basin is largely gas prone and renewed interest in the identification of oil source rocks in the succession. A major geochemical reassessment of all units from the Middle Triassic to the base of the Permian shows that the principal oil prone source rocks are restricted to a discrete zone within the basal Kockatea Shale, the Sapropelic Interval of the Hovea Member (defined herein). The source zone, typically 10–40 m thick, is laterally continuous over much of the onshore north
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Boreham, C. J., and R. A. de Boer. "ORIGIN OF GILMORE GAS AND OIL, ADAVALE BASIN, CENTRAL QUEENSLAND." APPEA Journal 38, no. 1 (1998): 399. http://dx.doi.org/10.1071/aj97019.

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Dry gas in the Gilmore Field of the Adavale Basin has been sourced from both wet gas associated with oil generation, together with methane from a deep, overmature source. The latter gas input is further characterised by a high nitrogen content co-generated with isotopically heavy methane and carbon dioxide. The eastern margin of the Lissoy Sandstone principal reservoir unit contains the higher content of overmature dry gas supporting reservoir compiirtmenmlisalion and a more favourable migration pathway to this region. The combination of a molecular and multi-element isotopic approach is an ef
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Liu, Shugen, Chuan Qin, Lubomir Jansa, et al. "Transformation of Oil Pools into Gas Pools as Results of Multiple Tectonic Events in Upper Sinian (Upper Neoproterozoic), Deep Part of Sichuan Basin, China." Energy Exploration & Exploitation 29, no. 6 (2011): 679–98. http://dx.doi.org/10.1260/0144-5987.29.6.679.

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A center in the present paper is referred to as an area or region which may include one or more hydrocarbon accumulations. A hydrocarbon generation center is referred to as an area containing high quality source rock which was subjected to thermal maturation. A gas generation center is an area in which an oil pool or accumulation was present, and oil was thermally cracked to generate gas. A gas accumulation center is referred to as an area in which natural gas generated from cracked oil accumulated. A gas preservation center is referred to as an area or region where the present natural gas poo
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Peng, Daicheng, Dong Yang, Fei Cheng, Xiaoyu She, Ze Tao, and Yukun Liu. "Mesozoic–Paleozoic Structural Characteristics and Their Controlling Effects on Oil and Gas in the Kongnan Area of Bohai Bay Basin." Journal of Marine Science and Engineering 13, no. 2 (2025): 232. https://doi.org/10.3390/jmse13020232.

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The Bohai Bay Basin is a typical marginal basin with complex internal structures and abundant oil and gas resources, exhibiting unique marine geological characteristics and processes. Based on seismic profile interpretation and balanced cross-section techniques, this paper presents a comprehensive systematic study of the structural combination and tectonic evolution of the Neo-Mesozoic–Cenozoic superimposed basin in the southern Bohai Bay Basin. The research findings indicate that the area exhibits four types of structural properties, including compression, extension, strike-slip, and thrust s
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Wu, Zangyuan, Qihong Feng, Yongliang Tang, Daiyu Zhou, and Liming Lian. "Experimental Study on Carbon Dioxide Flooding Technology in the Lunnan Oilfield, Tarim Basin." Energies 17, no. 2 (2024): 386. http://dx.doi.org/10.3390/en17020386.

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The Lunnan Oilfield in the Tarim Basin is known for its abundant oil and gas resources. However, the marine clastic reservoir in this oilfield poses challenges due to its tightness and difficulty in development using conventional water drive methods. To improve the recovery rate, this study focuses on the application of carbon dioxide flooding after a water drive. Indoor experiments were conducted on the formation fluids of the Lunnan Oil Formation, specifically investigating gas injection expansion, thin tube, long core displacement, oil and gas phase permeability, and solubility. By injectin
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Marlow, Lisa, Kristijan Kornpihl, and Christopher G. St C. Kendall. "2-D Basin modeling study of petroleum systems in the Levantine Basin, Eastern Mediterranean." GeoArabia 16, no. 2 (2011): 17–42. http://dx.doi.org/10.2113/geoarabia160217.

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ABSTRACT The Levantine Basin has proven hydrocarbons, yet it is still a frontier basin. There have been significant oil and gas discoveries offshore the Nile Delta, e.g. several Pliocene gas plays and the Mango Well with ca. 10,000 bbls/day in Lower Cretaceous rocks and recently, Noble Energy discovered two gas “giants” (> 5 TCF and one estimated at 16 TFC) one of which is in a pre-Messinian strata in ca. 1,700 m (5,577 ft) water depth. Regional two-dimensional (2-D) petroleum system modeling suggests that source rocks generated hydrocarbons throughout the basin. This paper provides ins
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47

Ellis, Grant. "The Vesta oil and gas field, Vulcan Sub-basin, Timor Sea, Australia." APPEA Journal 52, no. 1 (2012): 163. http://dx.doi.org/10.1071/aj11012.

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The Vesta oil and gas field is located in the Swan Graben of the Vulcan Sub-basin. The structure consists of a number of separate tilted fault blocks located on a northwest-trending accommodation zone that forms a high, separating the southeast-dipping half-graben of the Swan Graben North from the northwest-dipping half-graben of the Swan Graben South. Drilled in 2005, Vesta–1 intersected a 17 m thick oil-bearing slope-fan sandstone of the Late Jurassic Elm Sandstone in the Lower Vulcan Formation. Drill-stem testing flowed oil and gas and indicated that the reservoir is normally pressured surr
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Santy, Lauti Dwita, and Hermes Panggabean. "The Potential of Ketungau and Silat Shales in Ketungau and Melawi Basins, West Kalimantan: For Oil Shale and Shale Gas Exploration." Indonesian Journal on Geoscience 8, no. 1 (2013): 39–53. http://dx.doi.org/10.17014/ijog.8.1.39-53.

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DOI: 10.17014/ijog.v8i1.154The Ketungau and Melawi Basins, in West Kalimantan, are Tertiary intramontane basins of which the potential for economic conventional oil and gas discoveries have not previously been confirmed. The Ketungau Basin is bordered by the Melawi Basin in the south. Besides non-ideal trapping mechanisms, another major problem in these basins is source rock maturation. Nevertheless, both basins are promising to be explored for oil shale and shale gas energy resources. Therefore, the aim of this paper is to give some perspectives on their source rocks, as an input for the eval
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49

Yuling, Zhao, Yang Jinzhong, and Zhang Zhi. "A Preliminary Study On Remote Sensing Monitoring Method For Oil And Gas Resources- A Case Study In Ordos Basin." E3S Web of Conferences 194 (2020): 01003. http://dx.doi.org/10.1051/e3sconf/202019401003.

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With the continuous improvement of the understanding of the geological law and continuous innovation of unconventional oil and gas exploration and mining technology, China has made great breakthroughs in newly-added geological reserves of unconventional oil and gas resources, such as shale gas, coalbed methane, etc. But for many reasons, attention has not been paid to oil and gas resources (petroleum, natural gas, coalbed methane, shale gas), and regional remote sensing monitoring research has not been carried out. Based on high-resolution remote sensing data of the year 2018 and human-compute
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Zhao, Xianzheng, Lihong Zhou, Xiugang Pu, et al. "The sedimentary structure and petroleum geologic significance of the ring belt of the closed lake basin: An integrated interpretation of well and seismic data of the Kong2 Member in Cangdong Sag, Central Bohai Bay Basin, China." Interpretation 6, no. 2 (2018): T283—T298. http://dx.doi.org/10.1190/int-2017-0041.1.

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Cangdong is a typical oil-rich sag in the Bohai Bay Basin, China. After more than 50 years of exploration and development, the Kong2 Member (the major hydrocarbon play in the sag) still has considerable residual oil and gas resource potential. To pursue replacement areas of oil and gas exploration and development, the basic geology of the entire Kong2 Member in Cangdong Sag as a unit has been reexamined, and the findings have been used to guide the secondary exploration deployment. In this study, the characteristics of sedimentary reservoirs, source rocks, and oil and gas distribution in the K
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