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RESQML for 3D4D Reservoir Characterization

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3D/4D Reservoir Characterization. Michael J. King. Senior Advisor, BP America, Inc. ... Successful continued infill development of mature producing reservoirs requires ... – PowerPoint PPT presentation

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Title: RESQML for 3D4D Reservoir Characterization


1
RESQML for3D/4D Reservoir Characterization
  • Michael J. King
  • Senior Advisor, BP America, Inc.
  • Energistics Standards SeminarSPE Digital Energy
    Conference
  • 6 April 2009

2
Outline
  • Introduction
  • RESCUE Consortium
  • History, Membership, Workflow
  • RESQML in Energistics
  • Context and Structure
  • RESQML Roadmap
  • Requirements, Use Cases, Evolution
  • Discussion / Questions?

2
3
Introduction
4
Why Build A 3D Reservoir Model?
  • 3D Detailed Geologic Static Model
  • Understanding the resource in place
  • Understanding the play type
  • Well targeting
  • Upscaled Flow Simulation Model
  • Performance prediction in the absence of dynamic
    data
  • Starting point for a history match when dynamic
    data is available
  • Prediction of reserves per well
  • Prediction of new processes in anexisting field

3D Reservoir Modelling Workflow (After Roxar RMS)
5
Position in the EP Business Processes
Business Processes
After Chevron, ExxonMobil
30
Geoscience Data
Reservoir Models
De facto Standards,RESQML Domain
Many Production Applications
6
RESCUE Consortium
6
7
RESCUE Consortium 1 / 3
  • Initiated in 1995, RESCUE is a Joint Industry
    Project managed by Energistics (formerly POSC).
    The acronym 'RESCUE' stands for REServoir
    Characterization Using Epicentre
  • http//www.posc.org/rescue
  • The purpose was to provide aforum for the
    development ofan open standard for thetransfer
    of data fromgeomodels to upscalers,
    specifically through the use of the POSC
    Epicenter data model

7
8
RESCUE Consortium 2 / 3
  • Delivery of the standard replaced Epicenter with
    a collection of binary flat files to describe
  • Structural Framework Faults Horizons
  • 3D Grids Static and Simulation
  • Wells Especially Log Data
  • To ensure a commonimplementation a set ofClass
    Libraries weredeveloped under contractto the
    RESCUE project,and are the vehicle of choice for
    implementing an API to the RESCUE standard.

8
9
RESCUE Consortium 3 / 3
  • RESCUE Organization
  • Mike Castleberg, Program Manager
  • Rod Hanks, Class Libraries
  • Oil Company Chair
  • Oil Company Sponsors
  • Shell, BP, Total, StatoilHydro
  • Vendors
  • 20 Current Members delivering commercialapplicat
    ions with RESCUE readers /or writers
  • ILABs Interactive Laboratories
  • Multi-vendor testing and development
  • Oil company guidance
  • Genuine collaboration

10
RESCUE in the Workflow Initial Scope Static to
Dynamic
RESCUE provides for the transfer of the 3D
Reservoir Model from the Static to the
Dynamic Domain
  • RESCUE
  • 3D Grid is the primary data
  • Faults / Horizons / Wells associated with the
    grid
  • Provides a link from Geologic to Simulation
    Vendors
  • Workflow has been extended to support better
    multi-vendor reservoir characterization

3D Reservoir Modelling Workflow (After Roxar RMS)
11
RESCUE in Use
  • Deepwater GOM Appraisal
  • Large Structure
  • Partially Subsalt
  • Structurally Complex
  • Potentially Complex Channel Architecture
  • Faults Fault Seal?
  • Connected Volumes?
  • Reserves per Well?
  • Performance Prediction?
  • RESCUE used to combine multiple analyses since no
    one application could provide adequate technical
    assessment
  • Partial updates can be managed in RESCUE now, but
    it takes user skill and specific application
    experience

12
RESQML in Energistics
12
13
Energistics Subject Areas RESQML SIG initiated
1 Jan 2009
  • RESQML WITSML
  • Real-time updates of 3Dreservoir models while
    drilling

Asset/DataManagementSIG
eRegulatory SIG
AssetManagement
ltRESQML/gtSIG
  • RESQML PRODML
  • Rapid integration ofproduction history to
    validate/or calibrate models

Reservoir

Reservoir

Production


ProductionGeology
Geology SIG
Engineering
Engineering
Geology
Expl

Petrophysics
Petroleum


Petrophysics
Petroleum

ExplGeology
Geology
Engineering
Engineering
  • Industry Services SIG
  • Technical Architecture
  • Energy Identity Trust

Drilling

Production

Facilities

Drilling

Production

Facilities

Engineering
Engineering
Engineering
Engineering
Engineering
Engineering
Completion
Drilling
Production

Drilling

Completion

Production



Geophysics
Operations
Workover
Operations
Geophysics
Operations
Workover
Operations
Geophysics SIG
ltWITSML/gt
ltPRODML/gt
SIG
SIG
14
RESQML Team Structure
  • Steering Committee
  • Scope, Direction, Marketing
  • Use Case Team
  • Workflows, Processes, and Requirements
  • RESCUE
  • Maintenance of the existing libraries (v37.7)
  • Technical Teams
  • Infrastructure
  • Binary, ASCII to Binary, Shared Utilities
  • Wells
  • WITSML with RESQML extensions
  • Structural Earth Model
  • Faults, Horizons Structural Framework
  • GRID Reservoir Model
  • 3D Grids, Properties Cell Connections
  • Discretized Faults, Horizons Well Perforations

15
RESQML Roadmap Requirements
15
16
RESQML Requirements
  • Support for partial model transfer and updates
  • Enhanced integration with 3D/4D Seismic data
  • Commercial / Life of Field data integrity
  • Managing Risk Uncertainty
  • Geomechanical Support
  • Giga-Cell Models
  • Unstructured Grids

17
RESQML Roadmap
  • RESCUE v37 remains the standard in production use
    until RESQML enabled applications render it
    obsolete
  • 2009 Version 0.0
  • As of today, we are four months into the new
    Energistics SIG and are making good progress
    towards an XML-based standard based on relatively
    simple models
  • 2009 Version 1.0
  • By year end, first standard published for vendor
    comment prototype implementation
  • 2010 Version 1.N
  • Revisions of 1.0 plus new features
  • 2010/11 Version 2.0
  • First release in commercial vendor tools

18
RESQML Roadmap - Structural
  • Version 1.0
  • Faults and Horizons transferred as individual
    objects
  • Version 2.0
  • Faults and Horizons in a Structural Framework
  • Rich set of representations, e.g., tri-surfaces,
    2d grids, scattered data, etc.
  • Discretized faults,horizon structureon the
    GRID
  • Version 3.0
  • Multiple realizations
  • Enhanced metadata
  • Rule based (?)

19
RESQML Roadmap - GRID
  • Version 1.0
  • Single / Multiple Corner Point Grids
  • Numerical Local Grid Refinement
  • Straight / Piecewise Linear / Spline Coordinate
    Lines
  • Multiple layering schemes
  • Static and Dynamic cell properties, with packing
  • Non-Standard Adjacency (Pinch-out Faults)
  • Version 2.0
  • Geometric Local Grid Refinement Coarsening
  • Seismic Volumes / Tartan Simulation Grids
  • Node based properties (geomechanics seismic)
  • Version 3.0
  • Radial Grids
  • Streamline-based unstructured grids
  • Unstructured Cell Indexing and Truncated Grids
  • 2.5D and 3D PEBI Grids

20
Energistics Subject Areas
Asset/DataManagementSIG
eRegulatory SIG
AssetManagement
ltRESQML/gt
Reservoir

Reservoir

Production

Production

SIG
Geology SIG
Engineering
Engineering
Geology
Geology
Expl

Petrophysics
Petroleum

Expl

Petrophysics
Petroleum

Geology
Engineering
Geology
Engineering
  • Industry Services SIG
  • Technical Architecture
  • Energy Identity Trust

Drilling

Production

Facilities

Drilling

Production

Facilities

Engineering
Engineering
Engineering
Engineering
Engineering
Engineering
Completion
Drilling
Production

Drilling

Completion

Production



Geophysics
Operations
Workover
Operations
Geophysics
Operations
Workover
Operations
Geophysics SIG
ltWITSML/gt
ltPRODML/gt
SIG
SIG
20
21
Discussion Questions?
21
22
Backup!
22
23
Discussion Questions?
Business Processes
After Chevron, ExxonMobil
30
Geoscience Data
Reservoir Models
De facto Standards,RESQML Domain
Many Production Applications
24
RESQML Requirements 1a / 5
  • What Have We Learned from RESCUE?
  • Work processes, not a single Static to Dynamic
    Workflow
  • Also Static to Static and Dynamic to Static
    transfers
  • Support for partial model transfers updates
  • Structural description in Application-1
  • Properties in Application-2
  • Well design in Application-3
  • Upscaling in Application-4
  • Dynamic Predictions in Application-5
  • Transfer predictions back to the static model
  • Review Performance Against Predictions in
    Application-6
  • Update description back in Applications-1,2,

25
RESQML Requirements 1b / 5
  • Partial updates can be managed in RESCUE now, but
    it takes user skill and specific application
    experience
  • Deepwater GOM Appraisal
  • Large Structure
  • Partially Subsalt
  • Structurally Complex
  • Potentially Complex Channel Architecture
  • Faults Fault Seal?
  • Connected Volumes?
  • Reserves per Well?
  • Performance Prediction?
  • RESCUE used to combine multiple analyses since no
    one application could provide adequate technical
    assessment

26
RESQML Requirements 2 / 5
  • Commercial Requirements are More Rigorous
  • Sarbanes-Oxley has increased the rigor which we
    must document reserves, with supporting data
    interpretations
  • 7 Years Life of Field has increased the need
    for Vendor Application neutral data formats
  • The use of Markup Languageallows RESQML to
    representsignificantly more metadata
    oninterpretations and data sourcesthan does
    RESCUE.

27
RESQML Requirements 3 / 5
  • Managing Risk and Uncertainly
  • Markup language provides extensions to our
    current data structures to support multiple
    reservoir models
  • Examples
  • Here is a collection of 10 equi-likely reservoir
    models
  • Here is a most-likely and a standard distribution
    Top Reservoir map which honors all of our well
    data.
  • Please create 100 equi-likely Top Reservoir maps
  • Extensions
  • Representation by Value
  • Representation by a Collection
  • Representation by a Rule

28
RESQML Requirements 4 / 5
  • Giga-cell Models
  • Successful continued infill development of mature
    producing reservoirs requires more detail, higher
    resolution, and better Static ? Dynamic
    integration
  • Example SPE 116675
  • From Mega-Cell to Giga-Cell Reservoir
    SimulationAli Dogru et.al., Saudi Arabian Oil
    Company
  • 109 cell dynamic simulation models
  • 1010-1011 cell static geologic models
  • RESCUE interchange formats have not been
    optimized for systems of this size
  • 107-108 cell static geologic models are common

29
RESQML Requirements 5 / 5
  • Additional Classes of Models
  • 4D Seismic exceptionally useful forreservoir
    surveillance and management
  • Geomechanical models extend from thesurface to
    beyond the reservoir
  • Seismic Volumes
  • Tartan Simulation Grids
  • Unstructured Grids
  • Streamline simulation models are basedon 1D
    streamlines embedded in a 3D space
  • Unstructured Cell Indexing and Truncated Grids
    are in current use by several 3D Static modeling
    applications to describe complex structures,
    especially reverse faults
  • 2.5D and 3D PEBI grids are in use in the
    Simulation Domain
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