Back to the Future: Shale 2.0 - Returning Back to Engineering and Modelling Hydraulic Fractures in Unconventionals With New Seismic to Stimulation Workflows

Ramanathan, Venkateshwaran; Boskovic, Drazenko; Zhmodik, Alexey; Li, Qiuguo; Ansarizadeh, Mehdi

doi:10.2118/171662-ms

Cited by 8 publications

(2 citation statements)

References 4 publications

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“…With the development of new tools for fracture characterization using seismic data, seismic-driven reservoir simulation and monitoring are becoming the standard for improving reservoir description (Ouenes et al 2004;Ramanathan et al 2014). The understanding of geomechanics and seismology have provided a tool for modeling the fracture geometry and integration of the seismic and stimulation data in the reservoir modeling and production forecasting.…”

Section: Geomechanics In Reservoir Modeling and Managementmentioning

confidence: 99%

Species composition and catch of sharks, rays and skates in Ba Ria - Vung Tau and Binh Thuan provinces of Vietnam

Bui¹

2018

The J. Agric. Dev.

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Research on 2,626 individuals of sharks, rays and skates in total of 123 fishing boats were sampled during 2015 to 2016 in Ba Ria - Vung Tau and Binh Thuan provinces. The results identified 77 species of sharks, rays and skates belong to 22 families and 10 orders in Ba Ria - Vung Tau and Binh Thuan provinces. Of these, 57 species were recorded in Ba Ria - Vung Tau and 48 species in Binh Thuan. The families were found in the highest number of species such as Carcharhinidae family with 9 species, Dasyatidae family with 19 species and Rajidae family with 5 species. The total catch of sharks, rays and skates was 23,599 tons in Ba Ria - Vung Tau and was 24,355 tons in Binh Thuan. Sharks, rays and skates ratio made up from 0.2% to 0.5% in total catch landing from landing sites. Total length of sharks ranges from 21.0 cm to 366.0 cm, disc length of rays fluctuates from 11.0 cm to 248.0 cm and skates have a range from 0.7 cm to 152.0 cm in disc length.

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Section: Geomechanics In Reservoir Modeling and Managementmentioning

confidence: 99%

Species composition and catch of sharks, rays and skates in Ba Ria - Vung Tau and Binh Thuan provinces of Vietnam

Bui¹

2018

The J. Agric. Dev.

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“…Research on coalbed methane (CBM) genesis is an important part of the CBM accumulation mechanism. , CBM genesis can be divided into organic, inorganic, and mixed gas, among which organic gas includes primary biological gas, secondary biological gas, thermal degradation gas, and thermal cracking gas. , Based on geochemical indicators including gas composition and hydrocarbon isotopes and classical natural gas identification charts, biological gas has been identified in medium and low-rank coal bearing basins such as Powder River Basin, San Juan Basin, and Black Warrior Basin in the United States, Surat Basin in Australia, and Junggar Basin, Erlian Basin, Hailaer Basin, and Ordos Basin in China. − As a key field of CBM exploration and development in China, low-rank CBM has abundant resources but low gas content and low development degree. However, biological gas provides the main gas source supplement, which is expected to lay the resource foundation for China’s low-rank CBM to reserve growth and production addition. − …”

Section: Introductionmentioning

confidence: 99%

Genesis and Accumulation Mechanism of Low-Rank CBM: A Case Study in the Jiergalangtu Block of Erlian Basin, Northern China

Li,

Tang,

et al. 2023

ACS Omega

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In order to elucidate the origin of coalbed methane (CBM) in the Jiergalangtu block of Erlian Basin, Inner Mongolia of China, gas components, stable isotope tests of 22 gas samples, radioisotope dating measurements, and water quality analysis of 15 coproduced water samples were evaluated. On account of the geochemical data and genetic indicators, including C1/C1–n , C1/(C2 + C3), and CO2/(CO2 + CH4) (CDMI) values, δ13C(CO2), Δδ13C(CO2–CH4 ), δ15N, and 3He/4He combined with vitrinite reflectance (Ro) (0.29–0.48%, avg. 0.35%) of Saihantala formation, the results indicate that methane in the Jiergalangtu block is mostly dominated by primary and secondary biological gas, 40.91% of the gas samples are secondary biogas and primary biogas accounts for 59.19%. Among them, methyl-type fermentation accounts for 31.82%, and carbon dioxide (CO2) reduction makes up 68.18%. CO2 reduction generally occurs region-wide but is mainly associated with the central part of the block, where CO2 depletion and 13C enrichment take place correspondingly. Methane and CO2 δ13C almost tend to isotopically light along the margin of the block, indicating that gas generation is significantly affected by the methyl-type fermentation pathway. Meanwhile, the genesis analysis of other gas components in CBM is also investigated, CO2 is mainly the associated product of microbial methanogenesis, and nitrogen (N2) is primarily from the atmosphere with a little amount from the earth’s crust. Furthermore, the formation time of coalbed water has been dissected based on the hydrogeochemical properties of the coproduced water samples. The coalbed water exhibit a Na–HCO3 and Na–HCO3–Cl type and have a total dissolved solid (TDS) value ranging from 2458.58 to 5579.1 mg/L, with an average of 3440.55 mg/L. Moreover, comprehensive analysis of δD(H2O), δ18O(H2O), δ13CDIC, and the radioisotope dating index [3H, 14C(Fm) and 14C(BP)] indicates that the coalbed water was formed in the Quaternary Pleistocene and rarely replenished by the present surface water. The mechanism of CBM accumulation is basically sorted out by synthesizing the history of burial, heat, and hydrocarbon generation. The CBM formation can be divided into four stages. That is, microbial gas production approximately began at the beginning of the Early Cretaceous and reached the peak of thermogenic gas production in the middle and late Early Cretaceous. At the end of the Early Cretaceous, strata possibly began to uplift, and denudation led to gas escape. From Neogene to Pleistocene, glacial meltwater tended to penetrate into coalbed on a large scale, and N2 and CO2 also entered the coal seams, stimulating abundant secondary biological gas generation. Since Holocene, geological conditions including temperature and TDS have become hostile to biogas generation, and biogas generation tends to stop. Therefore, the Jiergalangtu block mainly represents sealed primary biological gas and secondary biological gas in CBM reservoirs.

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Integration of Microseismic Data and an Unconventional Fracture Modeling Tool to Generate the Hydraulically Induced Fracture Network: A Case Study From the Cardium Formation, West Central Alberta, Canada

Rutledge

Leaney

et al. 2015

Proceedings of the 3rd Unconventional Resources Technology Conference

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Back to the Future: Shale 2.0 - Returning Back to Engineering and Modelling Hydraulic Fractures in Unconventionals With New Seismic to Stimulation Workflows

Cited by 8 publications

References 4 publications

Species composition and catch of sharks, rays and skates in Ba Ria - Vung Tau and Binh Thuan provinces of Vietnam

Species composition and catch of sharks, rays and skates in Ba Ria - Vung Tau and Binh Thuan provinces of Vietnam

Genesis and Accumulation Mechanism of Low-Rank CBM: A Case Study in the Jiergalangtu Block of Erlian Basin, Northern China

Integration of Microseismic Data and an Unconventional Fracture Modeling Tool to Generate the Hydraulically Induced Fracture Network: A Case Study From the Cardium Formation, West Central Alberta, Canada

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