Using “Umbrella Deconstruction & Energy Dispersive Spectrometer (UD-EDS)” technique to quantify the anisotropic elements distribution of "Chang 7" shale and its significance

[1]  Xuan Cheng,et al.  Full-scale pores and micro-fractures characterization using FE-SEM, gas adsorption, nano-CT and micro-CT: A case study of the Silurian Longmaxi Formation shale in the Fuling area, Sichuan Basin, China , 2019, Fuel.

[2]  Yongmin Shi,et al.  Anisotropy characteristics of element composition in Upper Triassic “Chang 8” shale in Jiyuan district of Ordos Basin, China: Microscopic evidence for the existence of predominant fracture zone , 2019, Fuel.

[3]  J. Tsau,et al.  Pore-Scale Characterization of Eagle Ford Outcrop and Reservoir Cores with SEM/BSE, EDS, FIB-SEM, and Lattice Boltzmann Simulation , 2019, Day 3 Wed, October 02, 2019.

[4]  Jan D. Miller,et al.  Spatial characterization of heterogeneous nanopore surfaces from XCT scans of Niobrara shale , 2019, Colloids and Surfaces A: Physicochemical and Engineering Aspects.

[5]  Shuheng Du Prediction of permeability and its anisotropy of tight oil reservoir via precise pore-throat tortuosity characterization and “umbrella deconstruction” method , 2019, Journal of Petroleum Science and Engineering.

[6]  M. Deo,et al.  Correlative Multiscale Imaging of Mancos Shale , 2019, Day 1 Tue, March 26, 2019.

[7]  M. Abouelresh,et al.  Consistent Evaluation of the Organic Content of the Qusaiba Shale Using Digital-Rock Methodology , 2019, Day 2 Wed, March 27, 2019.

[8]  Hao Wang,et al.  Modeling of Fracture Width and Conductivity in Channel Fracturing With Nonlinear Proppant-Pillar Deformation , 2019, SPE Journal.

[9]  Yongmin Shi,et al.  A new and more precise experiment method for characterizing the mineralogical heterogeneity of unconventional hydrocarbon reservoirs , 2018, Fuel.

[10]  Yongmin Shi,et al.  Quantitative characterization on the microscopic pore heterogeneity of tight oil sandstone reservoir by considering both the resolution and representativeness , 2018, Journal of Petroleum Science and Engineering.

[11]  M. Sarrafzadeh,et al.  Effect of nitrifiers community on fouling mitigation and nitrification efficiency in a membrane bioreactor , 2018, Chemical Engineering and Processing - Process Intensification.

[12]  Pejman Tahmasebi,et al.  Nanoscale and multiresolution models for shale samples , 2018 .

[13]  X. Long,et al.  Experimental investigation on the mechanical properties of a low-clay shale with different adsorption times in sub-/super-critical CO2 , 2018 .

[14]  P. Adler,et al.  Three-scale analysis of the permeability of a natural shale. , 2017, Physical Review E.

[15]  E. Berrezueta,et al.  Application of optical image analysis to the assessment of pore space evolution after CO2 injection in sandstones. A case study , 2017 .

[16]  M. Blunt,et al.  Multi-scale multi-dimensional microstructure imaging of oil shale pyrolysis using X-ray micro-tomography, automated ultra-high resolution SEM, MAPS Mineralogy and FIB-SEM , 2017 .

[17]  P. Ranjith,et al.  An experimental investigation of coupled chemico-mineralogical and mechanical changes in varyingly-cemented sandstones upon CO2 injection in deep saline aquifer environments , 2017 .

[18]  W. Shen,et al.  Quasi-Static Crack Growth Under Symmetrical Loads in Hydraulic Fracturing , 2017 .

[19]  Quanzi Yuan,et al.  Using graphene to simplify the adsorption of methane on shale in MD simulations , 2017 .

[20]  Jürgen Hesser,et al.  Accurate and efficient maximal ball algorithm for pore network extraction , 2017, Comput. Geosci..

[21]  Anthony R. Kovscek,et al.  Multiscale pore structure characterization of middle east carbonates , 2016 .

[22]  L. Mancini,et al.  Using synchrotron X-ray microtomography to characterize the pore network of reservoir rocks: A case study on carbonates , 2016 .

[23]  F. Enzmann,et al.  Porosity and permeability determination of organic-rich Posidonia shales based on 3-D analyses by FIB-SEM microscopy , 2016 .

[24]  Y. Liu,et al.  Pore characteristic analysis of a lacustrine shale: A case study in the Ordos Basin, NW China , 2016 .

[25]  Xiaojun Wang,et al.  Dynamic fractures are an emerging new development geological attribute in water-flooding development of ultra-low permeability reservoirs , 2015 .

[26]  Arash Rabbani,et al.  An automated simple algorithm for realistic pore network extraction from micro-tomography images , 2014 .

[27]  S. Pemberton,et al.  Reservoir characterization of burrow-associated dolomites in the Upper Devonian Wabamun Group, Pine Creek gas field, central Alberta, Canada , 2013 .

[28]  Zeng Lian-bo,et al.  Fractures in sandstone reservoirs with ultra-low permeability: A case study of the Upper Triassic Yanchang Formation in the Ordos Basin, China , 2009 .

[29]  Christoph H. Arns,et al.  Quantitative properties of complex porous materials calculated from x-ray μCT images , 2006, SPIE Optics + Photonics.

[30]  Bernard Chen,et al.  Effect of bedding planes, their orientation and clay depositions on effective re-injection of produced brine into clay rich deep sandstone formations: Implications for deep earth energy extraction , 2016 .