Introduction to reservoir engineering by Avada Oil and Gas
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Introduction to reservoir engineering by Avada Oil and Gas

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<strong>Introduction</strong> <strong>to</strong> Reservoir Engineering<br />

1<br />

Fluid & Rock Proper es<br />

Pressure Transient Analysis<br />

2<br />

3<br />

Nodal Analysis<br />

Further Reading<br />

B o<br />

R s<br />

IPR<br />

VFP<br />

P<br />

P D<br />

P D<br />

'<br />

P<br />

Course Structure<br />

4<br />

Drive<br />

Solu on<br />

<strong>Gas</strong><br />

Fluid Drive<br />

Expansion<br />

Water<br />

Injec on<br />

5<br />

Time<br />

6<br />

Q<br />

Time<br />

Frac onal Flow<br />

Water Satura on<br />

Analy cal Simula on<br />

<strong>Oil</strong>, WI<br />

GOR<br />

Date<br />

Numerical Simula on<br />

EOR<br />

Special Topics<br />

Exercises<br />

Personal<br />

Employment<br />

About the Instruc<strong>to</strong>r<br />

Kristian Mogensen<br />

EOR Advisor<br />

Age: 46<br />

Lives in: Italy<br />

Married, Two Children<br />

PhD (1998) Chem. Eng.<br />

MSc (1995) Chem. Eng.<br />

Tech. Univ. Denmark<br />

11 Peer-Reviewed<br />

30 Conference Papers<br />

22 Patent Applications<br />

Assoc. Edi<strong>to</strong>r Tech. Edi<strong>to</strong>r<br />

Danish English French<br />

EOR <strong>and</strong> Reservoir Management Advisor<br />

KM Reservoir Solutions 2016 –<br />

EOR Technical Advisor<br />

ENI SpA, Milan 2014 – 2016<br />

Lead Reservoir Engineer & Team Leader, EOR R&D<br />

Maersk <strong>Oil</strong> Res. & Tech. Center 2010 – 2014<br />

Senior EOS Reservoir Engineer<br />

Maersk <strong>Oil</strong> Qatar 2007 – 2010<br />

Senior Reservoir Engineer<br />

Maersk <strong>Oil</strong> Qatar 2006 – 2007<br />

Senior Petroleum Engineer<br />

Maersk <strong>Oil</strong>, Denmark 2004 – 2006<br />

Petroleum Engineer<br />

Maersk <strong>Oil</strong>, Denmark 2000 – 2004<br />

Well-Site Engineer<br />

Maersk <strong>Oil</strong>, Denmark 1998 – 2000<br />

Legal information: Reproduction <strong>and</strong> unauthorised distribution of this material is prohibited.

<strong>Introduction</strong> <strong>to</strong> Reservoir Engineering<br />

Detailed Course Outline<br />

MODULE 1. FLUID AND ROK PROPERTIES<br />

FLUID PROPERTIES<br />

CLASSIFICATION OF HYDROCARBONS<br />

FLUID PROPERTY DEFINITIONS<br />

PHASE DIAGRAMS<br />

PVT EXPERIMENTS<br />

SINGLE-STAGE FLASH<br />

FLUID COMPOSITION<br />

CONSTANT-COMPOSITION EXPANSION<br />

DIFFERENTIAL VAPORIZATION<br />

OIL AND GAS VISCOSITY<br />

SEPARATOR TESTS<br />

COMPOSITE VAPORIZATION<br />

CONSTANT-VOLUME DEPLETION<br />

FLUID PROPERTY PREDICTION<br />

OIL COMPRESSIBILITY<br />

FORMATION VOLUME FACTOR<br />

OIL VISCOSITY<br />

GAS GRAVITY, Z-FACTOR, VISCOSITY<br />

FLUID CONTACTS<br />

GOC, GWC, GDT<br />

OWC, ODT<br />

FLUID GRADIENTS<br />

FLUID-FLUID INTERACTIONS<br />

INTERFACIAL TENSION<br />

ROCK PROPERTIES<br />

POROSITY AND PERMEABILITY<br />

DIGITAL CORE ANALYSIS<br />

RESISTIVITY AND FORMATION FACTOR<br />

ROCK/FLUID INTERACTIONS<br />

WETTABILITY<br />

DRAINAGE AND IMBIBITION<br />

CAPILLARY PRESSURE<br />

SATURATION-HEIGHT MODELING<br />

RELATIVE PERMEABILITY<br />

HYSTERESIS AND TRAPPING MODELS<br />

SUMMARY OF MODULE 1<br />

MODULE 4. ANALTYCAL TOOLS<br />

MATERIAL BALANCE CALCULATIONS<br />

FLUID VOLUMES<br />

HYDROCARBON PORE VOLUME<br />

STOIIP, GIIP, MOIIP<br />

COMPONENTS IN MATERIAL BALANCE<br />

FLUID AND ROCK EXPANSION<br />

DEPLETION ABOVE SATURATION PRESSURE<br />

HAVLENA-ODEH ANALYSIS<br />

AQUIFER INFLUX<br />

DRIVE INDICES<br />

VOIDAGE REPLACEMENT RATIO<br />

DEPLETION BELOW SATURATION PRESSURE<br />

WORKFLOW FOR MATERIAL BALANCE<br />

PRODUCTION DATA ANALYSIS<br />

ARPS DECLINE CURVES<br />

FETKOVITCH ANALYSIS<br />

BLASINGAME PLOTS<br />

AGARWAL MATERIAL-BALANCE ANALYSIS<br />

CAPACITANCE-RESISTIVE MODELS<br />

FRACTIONAL FLOW THEORY<br />

FRACTIONAL FLOW CURVE<br />

BUCKLEY-LEVERETT THEORY<br />

WELGE’S METHOD<br />

SUMMARY OF MODULE 4<br />

MODULE 2. PRESSURE TRANSIENT ANALYSIS<br />

TYPES OF TRANSIENT TESTS<br />

DRAWDOWN, BUILDUP<br />

INJECTION, FALLOFF<br />

DRILL-STEM TEST<br />

VERTICAL INTERFERENCE TEST<br />

INTERFERENCE TEST BETWEEN WELLS<br />

GOVERNING EQUATIONS<br />

MASS BALANCE<br />

DIFFUSIVITY EQUATION<br />

DIMENSIONLESS VARIABLES<br />

ANALYSIS OF THE PRESSURE RESPONSE<br />

WELLBORE STORAGE<br />

SKIN FACTOR<br />

PARTIAL PENETRATION<br />

WELLBORE DAMAGE<br />

INFINITE-ACTING RADIAL FLOW<br />

HORNER AND MDH ANALYSIS<br />

LAPLACE TRANSFORMATION<br />

STEHFEST ALGORITHM<br />

THE BOURDET PRESSURE DERIVATIVE<br />

TYPE CURVES<br />

RESERVOIR BOUNDARIES<br />

NO-FLOW, CONSTANT-PRESSURE<br />

HORNER AND MBH ANALYSIS<br />

DIETZ SHAPE FACTOR<br />

RADIUS OF INVESTIGATION<br />

SINGLE FRACTURES<br />

DUAL-MEDIA BEHAVIOR<br />

COMPOSITE RESERVOIRS<br />

TIME-RATE SUPERPOSITIONING<br />

GAS WELLS<br />

HORIZONTAL WELLS<br />

PARAMETER REGRESSION<br />

DESIGN OF A PRESSURE TRANSIENT TEST<br />

OTHER TOPICS<br />

MULTI-PHASE FLOW<br />

THERMAL EFFECTS<br />

DECONVOLUTION<br />

NUMERICAL ANALYSIS<br />

SUMMARY OF MODULE 2<br />

MODULE 5. NUMERICAL SIMULATION<br />

DIFFUSIVITY EQUATION<br />

GRIDDING<br />

CARTESIAN, RADIAL, CORNER-POINT<br />

LOCAL GRID REFINEMENT<br />

ADAPTIVE GRIDDING, PEBI GRIDS<br />

GRID ORIENTATION<br />

GRIDDING REQUIREMENTS<br />

MODEL TYPES<br />

BLACK-OIL<br />

COMPOSITIONAL<br />

THERMAL<br />

MODEL INITIALIZATION<br />

MOBILITY WEIGHING<br />

NUMERICAL SOLUTION METHODS<br />

EXPLICIT, IMPLICIT, SEMI-IMPLICIT<br />

HANDLING WELLS<br />

HISTORY MATCHING, FORECASTING<br />

UNCERTAINTY ANALYSIS<br />

STREAMLINE SIMULATION<br />

SUMMARY OF MODULE 5<br />

MODULE 3. NODAL ANALYSIS<br />

COMPONENTS OF NODAL ANALYSIS<br />

HYDROSTATIC, FRICTION, ACCELERATION<br />

SINGLE-PHASE FLOW<br />

REYNOLDS NUMBER<br />

LAMINAR AND TURBULENT FLOW<br />

FRICTION FACTOR<br />

NON-NEWTONIAN FLOW<br />

DRAG REDUCTION<br />

ANNULAR FLOW<br />

HEAT TRANSFER<br />

MULTI-PHASE FLOW<br />

SUPERFICIAL VELOCITY, LIQUID HOLDUP<br />

SLIP BETWEEN PHASES<br />

VERTICAL FLOW REGIMES<br />

FLOW CORRELATIONS<br />

FLOW REGIME MAPS<br />

HORIZONTAL FLOW REGIMES<br />

PRESSURE DROP ACROSS CHOKES<br />

LIQUID FLOW<br />

GAS FLOW, SONIC VELOCITY<br />

EROSIONAL VELOCITY<br />

TEMPERATURE CONSIDERATIONS<br />

VERTICAL LIFT PROFILE TABLES<br />

INFLOW PERFORMANCE MODEL<br />

RADIAL INFLOW<br />

PRODUCTIVITY INDEX<br />

VOGEL INFLOW MODEL<br />

JOSHI MODEL<br />

TRANSIENT INFLOW<br />

COMBINING INFLOW AND VERTICAL LIFT<br />

SUMMARY OF MODULE 3<br />

MODULE 6. SPECIAL TOPICS<br />

ENHANCED OIL RECOVERY<br />

IMPROVED VS ENHANCED OIL RECOVERY<br />

EOR SCREENING, SEARCH FOR<br />

ANALOGUES<br />

GAS INJECTION<br />

INJECTION GASES, METHODS<br />

KEY PARAMETERS AFFECTING<br />

RECOVERY<br />

DATA REQUIREMENTS<br />

CHEMICAL EOR<br />

ALKALIS<br />

SURFACTANTS<br />

POLYMERS<br />

LOW-SALINITY, SMART WATER<br />

DATA REQUIREMENTS<br />

THERMAL EOR<br />

CYCLIC STEAM INJECTION<br />

STEAM FLOODING<br />

STEAM-ASSISTED GRAVITY DRAINAGE<br />

IN-SITY COMBUSTION<br />

ELECTRICAL HEATING<br />

FRACTURED RESERVOIRS<br />

TYPES OF FRACTURED RESERVOIRS<br />

MODELING ASPECTS<br />

CONSIDERATIONS FOR GAS INJECTION<br />

UNCERTAINTY ANALYSIS<br />

SUMMARY OF MODULE 6<br />

Legal information: Reproduction <strong>and</strong> unauthorised distribution of this material is prohibited.

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