Multiscale Characterization of Fractures and Analysis of Key Controlling Factors for Fracture Development in Tight Sandstone Reservoirs of the Yanchang Formation, SW Ordos Basin, China DOI Creative Commons
Peng Chen, Shuhan Yang, Xinyu Chen

et al.

Applied Sciences, Journal Year: 2024, Volume and Issue: 14(21), P. 9676 - 9676

Published: Oct. 23, 2024

Tight sandstone reservoirs, despite their low porosity and permeability, present considerable exploration potential as unconventional hydrocarbon resources. Natural fractures play a crucial role in migration, accumulation, engineering challenges such late-stage reformation these reservoirs. This study examines the seventh member of Triassic Yanchang Formation’s tight within Ordos Basin using range methods, including field outcrops, core samples, imaging conventional logging, thin sections, scanning electron microscopy. The clarifies characteristics fracture development evaluates relationship between dynamic static rock mechanics parameters, calculation brittleness index. Primary factors influencing were quantitatively assessed through combination outcrop, core, mechanical test data. Findings reveal that high-angle structural are predominant, with some bedding diagenetic also present. Acoustic, spontaneous potential, caliper conjunction data, enabled comprehensive probabilistic index for identification, which produced favorable results. analysis identifies four key development: stratum thickness, index, lithology, stratigraphy. Among factors, thickness is negatively correlated development. Conversely, positively correlates significantly influences length, aperture, linear density. Fractures most prevalent siltstone fine sandstone, minimal mudstone. Different layer types impact These insights into controlling anticipated to enhance efforts contribute similar

Language: Английский

A novel data-driven model for real-time prediction of static Young's modulus applying mud-logging data DOI
Shadfar Davoodi, Mohammad Mehrad, David A. Wood

et al.

Earth Science Informatics, Journal Year: 2024, Volume and Issue: unknown

Published: Sept. 11, 2024

Language: Английский

Citations

3
Integrating geophysical logs for reservoir assessment of paleocene reservoir, Manzalai gas field, Kohat Basin, Pakistan DOI
Sartaj Hussain, Lan Cui, Wakeel Hussain

et al.

Carbonates and Evaporites, Journal Year: 2025, Volume and Issue: 40(2)

Published: May 6, 2025

Language: Английский

Citations

0
Horizontal well flow rate prediction applying machine-learning model DOI Creative Commons
Sergey A. Piskunov, Shadfar Davoodi

Bulletin of the Tomsk Polytechnic University Geo Assets Engineering, Journal Year: 2024, Volume and Issue: 335(5), P. 118 - 130

Published: May 29, 2024

Relevance. The need to accurately and quickly predict flow rates of horizontal wells. This allows optimizing drilling schedules, enhanced oil recovery programs, field development strategy, as well making the economic model more accurate predictable. Currently, analytical calculations numerical modeling methods are used production rates. These have limitations in both accuracy time. To solve this problem, it is proposed use machine learning, which due its accuracy, adaptability, speed, excluding disadvantages above-mentioned methods. Aim. create a machine-learning quantify gas based on geological properties at different time steps. Object. Stock wells condensate Western Siberia. Methods. Mathematical modelling, learning statistical Results. authors carried out 300 iterations hydrodynamic simulator. They collected an initial data set with following parameters: step, porosity, permeability, water saturation, reservoir thickness, bottom hole pressure distances from wellbore, rate. Machine models random forest gradient boosting algorithms were created ratios testing/training samples. able rate well. Gradient showed better prediction results compared forest: root mean square error equal 8440 std. m3/day, absolute percentage 3,95%, coefficient determination (R2)=0,991.

Language: Английский

Citations

0
Multiscale Characterization of Fractures and Analysis of Key Controlling Factors for Fracture Development in Tight Sandstone Reservoirs of the Yanchang Formation, SW Ordos Basin, China DOI Creative Commons
Peng Chen, Shuhan Yang, Xinyu Chen

et al.

Applied Sciences, Journal Year: 2024, Volume and Issue: 14(21), P. 9676 - 9676

Published: Oct. 23, 2024

Tight sandstone reservoirs, despite their low porosity and permeability, present considerable exploration potential as unconventional hydrocarbon resources. Natural fractures play a crucial role in migration, accumulation, engineering challenges such late-stage reformation these reservoirs. This study examines the seventh member of Triassic Yanchang Formation’s tight within Ordos Basin using range methods, including field outcrops, core samples, imaging conventional logging, thin sections, scanning electron microscopy. The clarifies characteristics fracture development evaluates relationship between dynamic static rock mechanics parameters, calculation brittleness index. Primary factors influencing were quantitatively assessed through combination outcrop, core, mechanical test data. Findings reveal that high-angle structural are predominant, with some bedding diagenetic also present. Acoustic, spontaneous potential, caliper conjunction data, enabled comprehensive probabilistic index for identification, which produced favorable results. analysis identifies four key development: stratum thickness, index, lithology, stratigraphy. Among factors, thickness is negatively correlated development. Conversely, positively correlates significantly influences length, aperture, linear density. Fractures most prevalent siltstone fine sandstone, minimal mudstone. Different layer types impact These insights into controlling anticipated to enhance efforts contribute similar

Language: Английский

Citations

0