'Jun': Presentations var m = date.getMonth() + 1; y -= 2000; EGEEfem_tutorial } { 2014 -------------------------------------------------------------------------------- Introduction - course content and schedule - why is a numerical approach needed in the geotechnical engineering context 2. // the year 2000. 2015 The code utilizes explicit quasi-static solvers developed specifically under US Department of Energy // -------------------------------------------------------------------------------- 2015 Presentations 2015 // YouTube } d. 1D Isoparametric Elements [2:4] EGEEfem_tutorial 2014 2014 return "" + // more compatible "0"+y:y); Lecture PART 5 - Solid Mechanics // more compatible Presentations The Computational Geomechanics with CivilFEM course provides 2D and 3D soil & rock mechanics solutions using any combination of beam, shell and solid elements to model tunneling supports (rockbolts, trusses, anchorages, shotcrete, steel fiber reinforced shotcrete) and lining (concrete, steel, reinforced concrete, segmental lining), and solves complex structural and soil … y -= 100; document.write( date_lastmodified() ); 2014 return s; 2015 } -------------------------------------------------------------------------------- 1. var d1; // but the following method is s = "" + date_ddmmmyy(new Date(d1)); { d. BEM - Indirect and Direct Boundary Element Methods 2015 Lecture Presentations -------------------------------------------------------------------------------- Presentations return "" + 'Sep': Fluid Flow and Pressure Diffusion [2:-] date_lastmodified() ); // could use splitString() here // returned by IE and NS in ( 7==m)? PART 4 - Momentum Transport } Lecture -------------------------------------------------------------------------------- Lecture // --> (d<10? (y<10? Apply to Faculty, Assistant Professor, Post-doctoral Fellow and more! Lecture 2015 2014 ( 7==m)? return "" + 'Sep': In order to promote Computational Engineering and intelligence and its application to engineering practice, IC 2 E plans to organize a series of courses & seminars given by international experts. -------------------------------------------------------------------------------- Course description: Computational poromechanics deals with the numerical solution of coupled multi-physics problems in porous media such as biological tissue, geomaterials, foams, etc. Lecture (10==m)?'Oct':(11==m)? 2014 Our main focus areas are applied geophysics and remote sensing, field and laboratory characterization of rocks and rockmasses, … // Lecture var y = date.getYear(); 'Jan':( 2==m)?'Feb':(3==m)? b. Constitutive Equations [5:2] e. 2D Isoparametric Elements and Numerical Integration [2:5] { // 2014 2015 "0"+d:d) + "-" + if(y >= 100) -------------------------------------------------------------------------------- mmm + "-" + 4. Course introduction. a. Fluids, Navier-Stokes Equations [4:1] ( 4==m)? // get last modified date of the var d1; Lecture 'Apr':( 5==m)?'May':(6==m)? -------------------------------------------------------------------------------- 'Mar': 'Jan':( 2==m)?'Feb':(3==m)? document.write( Lecture var mmm = if(y >= 2000) 2014 "This page last updated: " + // format date as dd-mmm-yy a. Finite Element Methods [2:1] Incomplete EGEEfem The course includes engineering behavior of tailings, various tailings disposal methods, impoundment water control, and embankment slope stability/seepage analysis using the computational modeling software. Presentations b. // before proceeding // handle different year values if(y >= 100) // the year 2000. Presentations // { b. 2019 2014 -------------------------------------------------------------------------------- // current document. Solid Mechanics [5:-] // check if we have a valid date Presentations PART 6 - Coupled Multiphysics Systems var y = date.getYear(); -------------------------------------------------------------------------------- mmm + "-" + Lecture 'Nov':'Dec'; document.write( EGEEfem -------------------------------------------------------------------------------- Alternative Solution Methods [7:-] 'Apr':( 5==m)?'May':(6==m)? -------------------------------------------------------------------------------- Presentations 6. Lecture // handle different year values // handle different year values // finally display the last modified date // returned by IE and NS in h. XFEM - Extended Finite Element Methods Lecture 2015 var d1; 3. Lecture // before proceeding // 2014 'Jul':( 8==m)?'Aug':(9==m)? Solid Mechanics [5:-] 2014 function date_ddmmmyy(date) -------------------------------------------------------------------------------- } } } a. -------------------------------------------------------------------------------- var m = date.getMonth() + 1; -------------------------------------------------------------------------------- 2014 a. Momentum Transport [4:-] Victor Kaliakin – Computational geomechanics and constitutive modeling of soils. a. 'Jul':( 8==m)?'Aug':(9==m)? 2015 var d1; "0"+d:d) + "-" + var y = date.getYear(); "This page last updated: " + { a. Dual-Porosity-Dual-Permeability Models [6:1] The course focuses on quasi-static deformation of fluid-infiltrated porous media, elastic and inelastic behavior under small-strain assumption, and the associated numerical algorithms. 2014 f. LBM - Lattice Boltzmann Methods // finally display the last modified date Level Set Methods [7:2] { ( 1==m)? 2014 2015 if(y >= 2000) { return "" + 'Sep': -------------------------------------------------------------------------------- Solid Mechanics [5:-] Level Set Methods [7:2] Lecture Lecture Lecture Lecture Conservation of Mass and 1D Models [3:1] function date_lastmodified() if(y >= 2000) return s; b. 7. PART 6 - Coupled Multiphysics Systems PART 5 - Solid Mechanics -------------------------------------------------------------------------------- if(y >= 100) // format date as dd-mmm-yy Alternative Solution Methods [7:-] { Coupled Multiphysics Systems [6:-] NEW COURSE: Computational Geomechanics in Reservoir Engineering Using FLAC and UDEC 10/30/2020 Practical applications of numerical modeling for simulation and analysis of geomechanics problems including wellbore stability, geothermal analysis, flow analysis, hydraulic fracturing, and fluid injection into porous medium. // --> We at CB-Geo aim to promote open research and create a friendly team of researchers working in the area of computational geomechanics.. return "" + // get last modified date of the b. // get last modified date of the a. Dual-Porosity-Dual-Permeability Models [6:1] Syllabus Course Notes [~30MB] YouTube EGEEfem Incomplete EGEEfem EGEEfem Key . -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Lecture b. Constitutive Equations [5:2] // finally display the last modified date { ( 7==m)? PART 7 - Alternative Solution Methods PART 5 - Solid Mechanics 2014 Presentations } { 2015 2015 // as DD-MMM-YY 2014 2014 // the year 2000. aka - Computational Geomechanics - Course Resources Page . EME 521 - Mathematical Modeling in Energy and Mineral Engineering -------------------------------------------------------------------------------- a. Dual-Porosity-Dual-Permeability Models [6:1] var m = date.getMonth() + 1; function date_lastmodified() Mass Transport and Reaction [3:-] 1D and 2D Elements [5:1] Coupled Hydro-Mechanical Models [6:2] a. 2014 2014 Level Set Methods [7:2] g. Transient Behavior - Integration in Time [2:7] 'Apr':( 5==m)?'May':(6==m)? var mmm = c. 2D Triangular Constant Gradient Elements [2:3] -------------------------------------------------------------------------------- // Lecture y -= 100; 'Mar': d. 1D Isoparametric Elements [2:4] PART 2 - Fluid Flow and Pressure Diffusion EGEEfem_tutorial YouTube Lecture COMPUTATIONAL GEOMECHANICS (GeoEE 557) Instructor: Derek Elsworth - 231 Hosler elsworth@psu.edu Shugang Wang - 230A Hosler szw138@psu.edu. The course will be particularly useful to anyone planning to professionally use one of the programs in the near future.” Geomechanics Engineer, Hanover, Germany “I am a reservoir engineer dealing with the technical operational aspects of underground gas storage. // 2. Prior Projects Presentations -------------------------------------------------------------------------------- if(y >= 100) Lecture var d = date.getDate(); 'Jun': y -= 100; Orientation [0:1] Presentations g. DEM - Distinct Element Methods … (10==m)?'Oct':(11==m)? 2015 y -= 2000; 2014 Lecture f. Transient Behavior - Mass Matrices [2:6] "0"+y:y); Level Set Methods [7:2] Free Electives. Lecture Lecture c. ComSol Models for HM Coupling [6:3] Lecture 2015 YouTube y -= 100; s = "" + date_ddmmmyy(new Date(d1)); Lecture -------------------------------------------------------------------------------- Presentation Tasks PART 6 - Coupled Multiphysics Systems PTE 592: Computational Geomechanics Lecture 8: 02/26/19 Birendra Jha Chemical Engineering and Materials Science USC • Last h. XFEM - Extended Finite Element Methods Lecture ( 1==m)? var mmm = PART 5 - Solid Mechanics // --> Class homework problems will be assigned to participants. Introduction to Computational Geomechanics [1:1] a. Finite Element Methods [2:1] } Course Notes [~30MB] Presentations Lecture Course description: Lecture Topics: 1. 2014 “Anyone with solid background knowledge, looking for practical experience in continuum and discontinuum geomechanical modelling, will find the course a very robust and hands-on introduction to three of Itasca’s well-known numerical simulators. // could use splitString() here -------------------------------------------------------------------------------- } Importance of geomechanics: compaction and subsidence, hydraulic fracturing, induced earthquakes, well failure. -------------------------------------------------------------------------------- 2D Constant Gradient Elements [3:2] Zoom 2021 b. 2014 "0"+y:y); -------------------------------------------------------------------------------- 2014 { Class videos and materials will be provided to participants for a two-month period. var s = "Unknown"; 2015 Coupled Hydro-Mechanical Models [6:2] } PART 1 - Introduction to Computational Geomechanics } // Conservation Equations and Galerkin Approximation [2:2] { e. SPH - Smoothed Particle Hydrodynamics f. LBM - Lattice Boltzmann Methods Reading: Reference 3, chapter 1; Reference 1, chapter 1 and 2 Week 2 1D and 2D Elements [5:1] // return s; } d. 1D Isoparametric Elements [2:4] // format date as dd-mmm-yy Syllabus } // format date as dd-mmm-yy a. EGEEfem Introduction to continuum mechanics: kinematics of deformation, reference and spatial configurations. date_lastmodified() );
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