Empirical Factors Leading to a Good Fractured Reservoir Early recognition of fractures High fracture intensity & good connections Good interaction between.

Slides:

Advertisements

Similar presentations

Fracture Properties Needed

Advertisements

Slide 1 Insert your own content. Slide 2 Insert your own content.

The Focus of Industry Lecture 1 Exploration Refining Production

Going Beyond Exploration

1 -Classification: Internal Uncertainty in petroleum reservoirs.

Uncertainty in reservoirs

Overview of the EPRI Groundwater Assessment Program

Rejuvenation of a mature oil field: Underground Gas Storage and Enhanced Oil Recovery, Schönkirchen Tief Field, Austria IEA-EOR Conference 2009 Torsten.

Click your mouse to move the card ahead! Work with a buddy using two Abacuses. First click and follow along using your abacus. After each click talk about.

Estimation of Borehole Flow Velocity from Temperature Profiles Maria Klepikova, Tanguy Le Borgne, Olivier Bour UMR 6118 CNRS University of Rennes 1, Rennes,

3-D Seismic Waveform Analysis for Reservoir Characterization

Earth Sciences Division, Lawrence Berkeley National Laboratory

Pore-scale modelling of carbonates 1 Hiroshi Okabe Petroleum Engineering and Rock Mechanics Research Group Department of Earth Science and Engineering.

2010 SPWLA Topical Conference

Presentation to Repsol by MYS on 9/13/06 Well Completion Design for Tight-Gas Formations M. Y. Soliman, PhD September 20, 2006 Mendoza, Argentina.

Classification of Fractured Reservoirs

SPE PP A Method for Probabilistic Forecasting of Oil Rates in Naturally Fractured Reservoirs Julio César Muñoz Blanco y Rafael Paz Palenzuela, CBM.

DESIGN AND IMPLEMENTATION OF A CO2 FLOOD UTILIZING ADVANCED RESERVOIR CHARACTERIZATION AND HORIZONTAL INJECTION WELLS IN A SHALLOW SHELF CARBONATE APPROACHING.

Inversion of Induced Polarization Effect Using Cole-Cole and GEMTIP Models Haiyan Fu 12/13/2011.

Some problems of computational geophysics Yu.M. Laevsky, B.G. Mikhaylenko, G.V. Reshetova Institute of Computational Mathematics and Mathematical Geophysics.

SAMPLE IMAGE Shale Gas Development: Integrated Approach Hemant Kumar Dixit Mumbai, India 18 January-2013.

A Workflow Approach to Designed Reservoir Study Presented by Zhou Lei Center for Computation and Technology Louisiana State University June 25, 2007.

Pioneer Natural Resources

E. Putra, Y. Fidra and D.S. Schechter

Vivek Muralidharan Simulation and imaging experiments of fluid flow through a fracture surface: a new perspective.

Sample Heavy Oil Screening Study Prepared For Epsilon Energy LTD Gemini Solutions Inc. James L Buchwalter, P.E./PhD.

Upscaling and History Matching of Fractured Reservoirs Pål Næverlid Sævik Department of Mathematics University of Bergen Modeling and Inversion of Geophysical.

Classification: Internal Status: Draft Using the EnKF for combined state and parameter estimation Geir Evensen.

Geologic Analysis of Naturally Fractured Reservoirs 2nd Edition, R. A

Chapter 1 RESERVOIR.

Marginal Field Development Advances in 3D Geological Modeling: How it can help?

CORES. Cores are sections of the reservoir formation obtained during drilling. They are obtained using a special drill bit TYPES Regular Cores Side Wall.

Copyright © 2015, Drillinginfo, Inc. All right reserved. All brand names and trademarks are the properties of their respective companies. 1 DI Transform:

Optimizing In Fill Well Drilling - Wamsutter Field

Assessment Report Department of the Earth Sciences School of Science and Mathematics James Zollweg Chair + Assessment Coordinator.

Sedimentology & Stratigraphy:

Significant New “Learnings” From An Integrated Study Of An Old Field, Foster/South Cowden Field (Grayburg & San Andres), Ector County, Texas. Robert C.

ENGINE Leiden Combining Areal Underground and Infrastructure Data to Minimize Exploration and Economic Risks Thomas Kohl, GEOWATT AG Clément Baujard,

OIL RECOVERY MECHANISMS AND THE MATERIAL BALANCE EQUATION

International Shale Development Optimization

Workflow for Finding Bypassed Reserves in Mature Assets  Real Time Integration of Simulation, Seismic Interpretation, and Geophysics  Best Answers Possible.

Modelling Unconventional Wells with Resolve and Reveal Juan Biörklund (Gauloise Energía) and Georg Ziegler (Wintershall Holding)

Numerical simulation of the Alum lakes geothermal outflow J. Newson and M. J. O’Sullivan.

Reservoir Simulation Study

Two Dimensional Hydraulic Fracture Simulations Using FRANC2D

Fluid Saturation Introduction

Presentation and review of TTA-report: Exploration and Reservoir Characterisation Summary Background Project Proposal.

February 2002 Joint Chalk Research Experiences and Plans.

Michael Fay VP, Software Development. Well Production Forecasting Requirements For efficiency, the method should be simple (e.g. no simulation or complex.

Bed Contained Tectonic Fold-Related Fractures Flank of Teton Anticline Sawtooth Mnts. W. Montana Miss. Madison Ls.

Wytch Farm Field Development Project

Fractures play a major role in many tight reservoirs such as shale, carbonate, and low permeability sand by providing fluid flow conduits, for this reason.

Tom Beebe Project Manager

Res A Performed By Gemini Solutions, Inc. May 2001.

1 1 Presenter / date if required Independent, integrated thinking.

Bob Trentham CEED / UTPB RESERVOIR CHARACTERIZATION Is Your Reservoir Ready For CO 2 ?

Case Study : History Matching of Well by Predictive Material Balance Term Project : Advanced Reservoir Engineering Presented By, Namit J Jaiswal B.E (Chemical)

EARS5136slide 1 Theme 6: INTEGRATION OF STRUCTURAL DATA AND RESERVOIR MODELS.

PAWNEE RESERVOIR SIMULATION STUDY Pioneer Natural Resources Co. Performed By Gemini Solutions, Inc. January 2001.

Imperial College, London Pore Scale Modelling: Pore - to - Reservoir Upscaling Project Plans by IDOWU N. A.

Results of Federal Cost-Shared Research: Better Understanding of Geothermal Resources Marshall J. Reed USGS, Menlo Park, CA U.S. Department of the Interior.

Contact: Prof. Quentin FisherDr Rachael Spraggs e: t: t: Theme: Deep Water Centre.

Date of download: 11/7/2017 Copyright © ASME. All rights reserved.

Date of download: 12/17/2017 Copyright © ASME. All rights reserved.

Role of Fractures in Michigan Oil and Gas Reservoirs

Department of Geology and Geological Engineering

Introduction to Effective Permeability and Relative Permeability

WOC 1: Exploration & Production of Natural Gas

Presentation transcript:

Empirical Factors Leading to a Good Fractured Reservoir Early recognition of fractures High fracture intensity & good connections Good interaction between fracture & matrix High reservoir energy Low water influx If deep or fine grained, partial mineralization along fractures

Exploration & Development Drilling Score Card Picking optimum well locations - Good Picking optimum drilling directions - Great Assigning reservoir properties –Rates - Good –Volumes - Poor –Cross flow - Poor

E & D Drilling Score Card (cont.) Determining drainage area - Fair Predicting well & reservoir response –Recovery - Poor –Longevity - Poor –Well history - Fair Assigning risk & economic success rate - Poor to Fair

Modern Approaches are Based On: New quantitative techniques in fracture characterization Multidisciplinary & integrated analyses More available reservoir simulation Better use of directional & horizontal drilling techniques More in-depth use of Risk Analysis

General Outline 1.Introduction 2.Fracture Origin 3.Fracture Morphology 4.Fracture Porosity 5.Fracture Permeability 6.F/M Interaction 7.Fracture Intensity 8.Intensity Prediction 9. Orientations 10. Reservoir Types 11. Well Directions 12. Simulation 13. Fracture Reservoir Production 14. Reservoir Screening 15. Summary (Field Examples)

Summary 6 phase approach to study of fractured reservoirs. Build from rock data first. Geophysical and rock mech. data can be used to highlight sweet spots. Reservoir prop. in fractures are different than matrix. Res. Mgmt. Strategies are very important.

Summary (cont.) Future advances will include upscaling fracture descriptions for reservoir simulation and defining connectedness in natural fracture systems. Because we can better quantify fractured reservoirs and predict their properties we should no longer fear or avoid them.

Apply Screening Tools Gather Fracture Distribution Data (Static Data) Interpret Fracture System Origin & Apply Distribution Models (Static Data) Gather Reservoir Property Data for Matrix & Fractures (Static Data) Gather Fluid & Pressure Data (Dynamic Data) Determine Fracture/ Matrix Interaction Measure or Infer In Situ Stress Field Create Dynamic Conceptual Model Create Static Conceptual Model Determine Fractured Reservoir Type Estimate Resources, Reserves, Rates Define Inhomogeneity, Anisotropy & Shape Factor Develop Integrated Static & Dynamic Reservoir Description for Simulation History Match to Wells & Tests and Iterate Select Optimum Well Locations & Well Paths Develop Depletion Scheme and Reservoir Management Strategies Monitor Field Performance and Adjust Obtain Subsurface Flow & Test Data (Dynamic Data) Economic? Restudy? Sanction? Is this a Fractured Reservoir? R.A. Nelson 9/00 Decision Steps, Critical Modeling Steps