IMMISCIBLE

作品数:106被引量:208H指数:7
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相关领域:理学一般工业技术金属学及工艺更多>>
相关作者:杨雅辉吴江涛张金利王一平张鹏更多>>
相关机构:吉林化工学院天津大学西安交通大学厦门大学更多>>
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The Story of High Entropy Alloys: From the Immiscible to the Miscible States in Alloys—The Entropy versus the Enthalpy Alloys
《Journal of Modern Physics》2025年第1期1-5,共5页Swe-Kai Chen 
The role of entropy and enthalpy plays an essential key for the formation of an alloy. This paper illustrates how an alloy is to form and what and why the properties of the alloy are going to have by the entropy and e...
关键词:EE-Plane Pseudo-Unitary Lattice (PUL) High Entropy Alloy Four Effects Entropy Alloys Enthalpy Alloys Solubility Solid Solution 
Single-Entity Collisional Electrochemistry at the Micro-and/or Nano-Interface Between Two Immiscible Electrolyte Solutions
《电化学(中英文)》2024年第11期1-16,I0001,共17页Li-Fang Yang Jun-Jie Chen Ling-Yu Chen Si-Qi Jin Tao-Xiong Fang Si-Jia He Liang-Jun Shen Xin-Jian Huang Xiao-Hang Sun Hai-Qiang Deng 
supported by the National Natural Science Foundation of China(No.21904143).
Single-entity collisional electrochemistry(SECE)is a branch of single-entity electrochemistry.It can directly characterize entities/particles with single particle resolution through random collisions between particles...
关键词:Single-entity collisional electrochemistry Interface between two immiscible electrolyte solutions Charge transfer 
Insight into evolution of invasive patterns on fingering phenomenon during immiscible two-phase flow through pore structure
《Petroleum Science》2024年第5期3307-3325,共19页Yu Li Hui-Qing Liu Chao Peng Peng Jiao Wai Lam Loh Qing Wang 
supported by the National Natural Science Foundation of China Joint Fund Project (Grant/Award Number: U20B6003);National Natural Science Foundation of China (Grant/Award Number: 52304054)。
Understanding fingering, as a challenge to stable displacement during the immiscible flow, has become a crucial phenomenon for geological carbon sequestration, enhanced oil recovery, and groundwater protection. Typica...
关键词:Immiscible two-phase flow Fingering phenomenon Invasive pattern Capillary number Parameters optimization 
Influence of reservoir heterogeneity on immiscible water-alternating-CO_(2)flooding:A case study
《Energy Geoscience》2024年第3期77-84,共8页Peifeng Jia Chuanzhi Cui Zhongwei Wu Dawei Yan 
funded by the National Natural Science Foundation of China(No.51974343);the Open Fund of Hubei Key Laboratory of Drilling and Production Engineering for Oil and Gas(Yangtze University)(No.YQZC202307);the Qingdao Postdoctoral Applied Research Project(No.qdyy20200084);the China Postdoctoral Science Foundation(No.2021M703588);a project of Science&Technology R&D Department of SINOPEC entitled Key Technology for Optimization Design of 3D Development of Shale oil in Dongying Sag(No.P23026).
Currently,limited studies of immiscible water-alternating-CO_(2)(imWACO_(2))flooding focus on the impact of reservoir heterogeneity on reservoir development outcomes.Given this,using the heterogeneous reservoirs in th...
关键词:Immiscible water-alternating-CO_(2)flooding Gao 89-1 block Slab experiment Numerical simulation Reservoir heterogeneity 
A novel immiscible high entropy alloy strengthened via L1_(2)-nanoprecipitate被引量:1
《Journal of Central South University》2024年第6期1808-1822,共15页WANG Zheng-qin FAN Ming-yu ZHANG Yang LI Jun-peng LIU Li-yuan HAN Ji-hong LI Xing-hao ZHANG Zhong-wu 
Projects(52001083,52171111,U2141207)supported by the National Natural Science Foundation of China;Project(LH2020E060)supported by the Natural Science Foundation of Heilongjiang,China。
The low-cost Fe-Cu,Fe-Ni,and Cu-based high-entropy alloys exhibit a widespread utilization prospect.However,these potential applications have been limited by their low strength.In this study,a novel Fe_(31)Cu_(31)Ni_(...
关键词:heterogeneous microstructure precipitation strengthening high-entropy alloy phase separation mechanical property 
Forced boiling of nonazeotropic immiscible mixture in a supercapillary microchannel array for ultra-high heat flux removal with chip junction temperature below 85℃
《Science China(Technological Sciences)》2024年第5期1364-1380,共17页SUN Bo BAO YuChen TIAN Tong LI Ji 
supported by the National Natural Science Foundation of China(Grant No.51776195)。
In this study,a structure-optimized two-phase microchannel heat sink with sintered submicron nucleation sites was developed and tested.The copper-based microchannels had a rectangular cross-section with an equivalent ...
关键词:MICROCHANNEL sintered powder coating submicron nucleation cavities nonazeotropic immiscible ultra-high heat flux 
THE ASYMPTOTIC STABILITY OF PHASE SEPARATION STATES FOR COMPRESSIBLE IMMISCIBLE TWO-PHASE FLOW IN 3D
《Acta Mathematica Scientia》2023年第5期2133-2158,共26页陈亚洲 Hakho HONG 施小丁 
partially supported by the NationalNatural Science Foundation of China(12171024,11901025,11971217,11971020);the Academic and Technical Leaders Training Plan of Jiangxi Province(20212BCJ23027)。
This paper is concerned with a diffuse interface model called Navier-Stokes/CahnHilliard system.This model is usually used to describe the motion of immiscible two-phase flows with a diffusion interface.For the period...
关键词:Navier-Stokes/Cahn-Hilliard system strong solution existence UNIQUENESS large-time behavior 
Effects of macrosegregation on mechanical and tribological properties of squeeze casting immiscible bearing alloys
《China Foundry》2023年第5期443-451,共9页Ming Xu Yan-guo Yin Cong-min Li Guo-tao Zhang Cong-chong Duan 
This research was financially supported by the National Natural Science Foundation of China(No.51575151 and No.52005005);the Science and Technology Project of Anhui Province,China(No.1501021006).
The macrosegregation behaviors of Al-Sn-Cu ternary immiscible alloy castings and their effects on mechanical and tribological properties were investigated.The results demonstrate that Sn and Cu segregate in the castin...
关键词:squeeze casting Al-Sn-Cu MACROSEGREGATION mechanical properties tribological property 
Laboratory simulation of CO_(2) immiscible gas flooding and characterization of seepage resistance
《Frontiers of Earth Science》2023年第3期797-817,共21页Jie CHI Binshan JU Wenbin CHEN Mengfei ZHANG Rui ZHANG Anqi MIAO Dayan WANG Fengyun CUI 
the Dongying Science Development Fund Project(Nos.DJ2022009 and DJ2020003);the Shandong Provincial Higher Education Research and Development Program(Science and Technology A Class)(No.J18KA201);the High-level Talent Research Start-up Fund of Shengli College of China University of Petroleum(No.KQ2019-008);the Chunhui Project of Shengli College of China University of Petroleum(No.KY2017004);the Research Cultivation Project of College of Big Data and Basic Science of Shandong Institute of Petroleum and Chemical Technology(No.XYPY2201)which supports are appreciated.
CO_(2) flooding can significantly improve the recovery rate, effectively recover crude oil, and has the advantages of energy saving and emission reduction. At present, most domestic researches on CO_(2) flooding seepa...
关键词:laboratory_simulation viscosity starting pressure gradient CO immiscible flooding characterization of seepage resistance 
A novel numerical simulation of CO_(2) immiscible flooding coupled with viscosity and starting pressure gradient modeling in ultra-low permeability reservoir
《Frontiers of Earth Science》2023年第3期884-898,共15页Jie CHI Binshan JU Jiabei WANG Xing ZHANG Wenbin CHEN Mengfei ZHANG 
the Dongying Science Development Fund Project(Nos.DJ2022009 and DJ2020003);the Shandong Provincial Higher Education Research and Development Program(Science and Technology A Class)(No.J18KA201);the High-level Talent Research Start-up Fund of Shengli College of China University of Petroleum(No.KQ2019-008);the Chunhui Project of Shengli College of China University of Petroleum(No.KY2017004);the Research Cultivation Project of College of Big Data and Basic Science of Shandong Institute of Petroleum and Chemical Technology(No.XYPY2201)which supports are appreciated.
CO_(2) immiscible flooding is an environmentally-friendly and effective method to enhance oil recovery in ultra-low permeability reservoirs.A mathematical model of CO_(2) immiscible flooding was developed,considering ...
关键词:VISCOSITY starting pressure gradient flow simulation CO_(2)immiscible flooding ultra-low permeability reservoir 
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