Please use this identifier to cite or link to this item:
http://localhost:8080/xmlui/handle/123456789/146457| Title: | Experiments on flux qubits with pi-shifters |
| Authors: | Feofanov, Alexey |
| Issue Date: | 2011 |
| Publisher: | KIT Scientific Publishing |
| link: | https://www.ksp.kit.edu/9783866446441 |
| Keywords: | Physics;fracturing fluid;rheology;chelating agent;viscosity;polymer;fluid-solid interaction;velocity profile;the average flow velocity;flow resistance;pore network model;shale gas;volume fracturing;finite volume method;production simulation;multi-scale flow;multi-scale fracture;shale gas reservoir;fractured well transient productivity;succession pseudo-steady state (SPSS) method;complex fracture network;multi-scale flow;analysis of influencing factors;tight sandstones;spontaneous imbibition;remaining oil distributions;imbibition front;imbibition recovery;NMR;slip length;large density ratio;contact angle;pseudo-potential model;lattice Boltzmann method;micro-fracture;dissolved gas;experimental evaluation;reservoir depletion;recovery factor;tight oil;Lucaogou Formation;tight oil;pore structure;prediction by NMR logs;tight oil reservoir;SRV-fractured horizontal well;multiporosity and multiscale;flow regimes;productivity contribution degree of multimedium;equilibrium permeability;non-equilibrium permeability;matrix–fracture interaction;effective stress;coal deformation;porous media;non-linear flow;conformable derivative;fractal;hydraulic fracturing;tight reservoirs;fracture diversion;extended finite element method;fracture network;gas adsorption capacity;shale reservoirs;influential factors;integrated methods;sulfonate gemini surfactant;thickener;temperature-resistance;clean fracturing fluid;low-salinity water flooding;clay mineral composition;enhanced oil recovery;wetting angle;pH of formation water;fractional diffusion;fractal geometry;analytical model;shale gas reservoir;carbonate reservoir;petrophysical characterization;pore types;pore structure;permeability;fractal dimension;reservoir classifications;deep circulation groundwater;groundwater flow;geothermal water;faults;isotopes;shale permeability;local effect;global effect;matrix-fracture interactions;nanopore;pore structure;shale;tight sandstone;mudstone;nitrogen adsorption;fractal;enhanced geothermal system;well-placement optimization;fracture continuum method;0-1 programming;unconventional reservoirs;petrophysical characterization;fluid transport physics |
| ISBN: | 9783866446441 |
| Theme: | 教科書-自然科學類 |
Files in This Item:
There are no files associated with this item.
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.