"Wang Weicen,Li Zijing,She Yun,Hu Yingxue,Matsushita Shintaro,Suekane Tetsuya","Effect of foam on miscible displacement in the Hele-Shaw cell with a chemical reaction approach",,"Physics of Fluids",,"Vol. 35","No. 5",,2023,May
"Mohammad Azis Mahardika,Yun She,Tomotaka Koe,Anindityo Patmonoaji,Muhammad Nasir,Shintaro Matsushita,Tetsuya Suekane","Experimental Study with Interaction of Gravity and Viscous Forces in a Three-Dimensional Porous Medium","19th International Conference on Flow Dynamics",,,,,,2022,Nov.
"Muhammad Nasir,Zijing Li,Mohammad Azis,weicen wang,yun she,kailin wang,anindityo,Shintaro matsushita,suekane","Pore-scale investigation of wettability effects on drying process of three-dimensional porous medium",,"International Communications in Heat and Mass Transfer","Elsevier","Volume 140",,,2022,Nov.
"Yun She","Pore-scale Study on Chemical Enhanced Oil Recovery in Three-dimensional Porous Media using X-ray Microtomography",,,,,,,2022,Sept.
"Yun She","Pore-scale Study on Chemical Enhanced Oil Recovery in Three-dimensional Porous Media using X-ray Microtomography",,,,,,,2022,Sept.
"Yun She","Pore-scale Study on Chemical Enhanced Oil Recovery in Three-dimensional Porous Media using X-ray Microtomography",,,,,,,2022,Sept.
"Yun She,Hirotaka Aoki,Yingxue Hu,Chunwei Zhang,Mohammad Azis Mahardika,Muhammad Nasir,Weicen Wang,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane","Effect of In-situ Dual Surfactant Formulation on Spontaneous Oil Deformation: A Comprehensive Study from Mechanism Discovery to Oil Recovery Application",,"Industrial & Engineering Chemistry Research","ACS Publications",,,,2022,July
"Muhammad Nasir,Kazuki Kaito,Anindityo Patmonoaji,Mohammad Azis Mahardika,Yun She,Shintaro Matsushita,Tetsuya Suekane","Three-dimensional pore-scale observation of drying process of porous media",,"International Journal of Heat and Mass Transfer","Elsevier","Volume 196",,,2022,July
"Yun She,Weicen Wang,Yingxue Hu,Mohammad Azis Mahardika,Muhammad Nasir,Chunwei Zhang,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane","Pore-scale investigation on microemulsion-based quasi-miscible flooding for EOR in water-wet/oil-wet reservoirs: A 3D study by X-ray microtomography",,"Journal of Petroleum Science and Engineering","Elsevier",,,,2022,July
"Mohammad Azis Mahardika,Yun She,Tomotaka Koe,Anindityo Patmonoaji,Muhammad Nasir,Shintaro Matsushita,Tetsuya Suekane","Competition of gravity and viscous forces in miscible vertical displacement in a three-dimensional porous medium",,"Physics of Fluids","AIP Publishing","Vol. 34",,,2022,June
"Yun She,Hirotaka Aoki,Weicen Wang,Zijing Li,Muhammad Nasir,Mohammad Azis Mahardika,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane","Spontaneous Deformation of Oil Clusters Induced by Dual Surfactants for Oil Recovery: Dynamic Study from Hele-Shaw Cell to Wettability-Altered Micromodel",,"Energy & Fuels","American Chemical Society","Vol. 36","Issue 11","Page 5762?5774",2022,May
"Muhammad Nasir,Ryuhei Yamaguchi,Yun She,Anindityo Patmonoaji,Mohammad Azis Mahardika,Weicen Wang,Zijing Li,Shintaro Matsushita,Tetsuya Suekane","Hydrodynamic Fingering Induced by Gel Film Formation in Miscible Fluid Systems: An Experimental and Mathematical Study",,"Applied Sciences","Multidisciplinary Digital Publishing Institute","Vol. 12","Issue 10","Page 5043",2022,May
"Anindityo Patmonoaji,Mohammmad Azis Mahardika,Muhammad Nasir,Yun She,Weicen Wang,Muhammad Akhsin Muflikhun,Tetsuya Suekane","Stereolithography 3D Printer for Micromodel Fabrications with Comprehensive Accuracy Evaluation by Using Microtomography",,"Geosciences","Multidisciplinary Digital Publishing Institute","Vol. 12","Issue 5","Page 183",2022,Apr.
"Yun She,Mohammad Azis Mahardika,Weicen Wang,Tetsuya Suekane","Pore-scale investigation of microemulsion flooding strategies on enhanced oil recovery in oil-wet reservoir by X-ray microtomography","The 32nd International Symposium on Transport Phenomena (ISTP32)",,,,,,2022,Mar.
"Chunwei Zhang,Yun She,Yingxue Hu,Zijing Li,Weicen Wang,Anindityo Patmonoaji,Tetsuya Suekane","Experimental investigation of solute transport in variably saturated porous media using X-ray Computed Tomography",,"Physics of Fluids",,"Vol. 30",,,2021,July
"Anindityo Patmonoaji,Muhammad Nasir,Mohammad Azis Mahardika,She Yun,Muhammad Tahta Amin,Tetsuya Suekane","A unique dissolution behavior of trapped CO2 into flowing water inside a porous medium compared with other gases",,"J. MMIJ",,"Vol. 137","No. 9","pp. 91-97",2021,July
"Chunwei Zhang,Yun She,Yingxue Hu,Zijing Li,Weicen Wang,Anindityo Patmonoaji,Tetsuya Suekane","Experimental investigation of solute transport in variably saturated porous media using X-ray Computed Tomography",,"Physics of Fluids",,"vol. 30",,,2021,July
"Mohammad Azis Mahardika,Yun She,Fujiura Shori,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane,Yuichiro Nagatsu","Enhanced heavy oil recovery by calcium hydroxide flooding with the production of viscoelastic materials: Study with three-dimensional tomography and glass micromodels",,"Energy & Fuels",,"Vol. 35",,"pp. 11210-11222",2021,July
"Yingxue Hu,Yun She,Chunwei Zhang,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane","Pore-scale investigation of wettability impact on residual nonaqueous phase liquid dissolution in natural porous media",,"Science of the Total Environment",,"Vol. 787",,,2021,Apr.
"Yun She,Yingxue Hu,Chunwei Zhang,Mohammad Azis Mahardika,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane","Pore-scale study of in-situ surfactant flooding with strong oil emulsification in sandstone based on X-ray microtomography",,"Journal of Industrial and Engineering Chemistry",,"Vol. 98",,"pp. 247-261",2021,Mar.
"Yun She,Mohammad Azis Mahardika,Yingxue Hu,Anindityo Patmonoaji,Shintaro Matsushita,Tetsuya Suekane,Yuichiro Nagatsu","Three-dimensional visualization of alkaline flooding process with in-situ emulsification for oil recovery in porous media",,"J Petroleum Science and Engineering",,"Vol. 202",,,2021,Feb.
"Yingxue Hu,Yun She,Anindityo Patmonoaji,Chunwei Zhang,Tetsuya Suekane","Effect of capillary number on morphological characterizations of trapped gas bubbles: Study by using micro-tomography",,"Intern. J. Heat Mass Trans",,"Vol. 163",,,2020,Sept.