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Course Description
A reservoir’s life begins with
exploration that leads to discovery, which is followed by delineation of the
reservoir, development of the field, production by primary, secondary, and
tertiary means, and finally to abandonment. Integrated, sound reservoir
management is the key to a successful operation throughout a reservoir’s life.
Further, the need to enhance recovery from the vast amount of remaining oil and
gas-in-place, plus the global competition, requires better reservoir management
practices. Reservoir management is the application of scientific principles to
solve issues arising during the development and production of oil and gas
reservoirs.
This course is designed to provide
many tools and techniques to help address the challenges of providing a more
reliable and sound reservoir engineering & management. Participants can
learn a wealth of classic information on the concepts and processes involved in
reservoir engineering and management. The course presents insights about data
acquisition, reservoir performance analysis & forecast, field development
planning, reservoir management economics and improved recovery processes.
Objectives
- Use
appropriate approaches in reservoir engineering and management.
- Be
familiar with the appropriate data collection, analysis, validation and
integration process.
- Illustrate
the points of integration between the different disciplines (geoscience,
engineering etc.) during the applications of the reservoir management
concepts
Applications.
- Ensure
the appropriate execution of the reservoir management process.
- Use
the Interdisciplinary Synergistic approach to efficient reservoir
management.
- Include
each reservoir management component and the importance of timing and
cost/benefit analysis.
- Apply
the different methods of reservoir performance analysis and forecast &
give emphasis on the integration of production/injection data, pressure
data and any subsurface data.
- Acquire
an up to date knowledge on the improved recovery processes related to
water flooding, thermal methods, chemical methods and EOR screening
guidelines.
Outline
Day (1): Reservoir Management Process,
Components & Plan
·
Reservoir
Management Concepts
·
Definition
of reservoir management: an integrated, interdisciplinary team effort
·
Reservoir
life cycle
·
Scope
and objective for integrated reservoir management
·
Fundamentals
and resources of reservoir management
·
Reservoir
management concepts and processes
·
Reservoir
management plans
·
Synergy
and team
·
Responsibilities
for team members
·
Integration
of geoscience and engineering
·
Setting
goals: goal setting, planning, implementing, monitoring, and evaluating
reservoir performance
·
Developing
plan and economics (scenarios): field development and field operating plans to
optimise profitability
·
Why
integrated reservoir studies
·
Revision
of plan & strategies
·
Reasons
for failure of reservoir management programs
·
Economics
for Reservoir Management
Day (2): Reservoir engineering data
·
Data
needed for integrated study
·
Data
types: reservoir rock & fluids properties
·
Data
acquisition, validation, analysis and management
·
Integration
of production/injection data, log data, pressure data and any subsurface data
for analysis
·
Efficient
monitoring of reservoir performance
·
Identifying
and acquiring critical data, data acquisition, and analysis
·
Reservoir
performance analysis and forecast
·
Static
geological model and reservoir simulation
·
When
simulation models are required
·
History
matching and identification of by-passed oil
·
Total
integration of surface and sub-surface
Day (3):Reserves Estimation and Classification/ Reservoir Drive Mechanisms and
Producing Characteristics
·
Induction
of new technologies to maximizing economic recovery and minimizing capital
investment, risk and operating expenses.
·
The
timing of field implementation of reservoir management plan: during the primary
recovery, pressure maintenance, and secondary and tertiary recovery
·
Reservoir
management plans and scenarios
·
The
economic model, uncertainties and risks
·
Maximizing
economic recovery and minimizing capital investment, risk and operating
expenses
·
Oil
reserves types and classification & reservoir engineering and evaluation
·
Natural
producing mechanisms
·
Reservoir
performance analysis and forecast
·
Estimation
of reserves and prediction of reservoir performance
·
Determination
of hydrocarbon in place (volumetric method, decline curve method, material
balance method, and mathematical simulation
Day (4): Water Flood Monitoring and Management
·
Secondary
recovery and pressure maintenance process
·
Water
flood management in mature fields: surface as well as subsurface issues.
·
Describing
water flooding definition and objectives, candidates, patterns, factors
affecting pattern selection, well spacing, fractional flow, performance
measures, practices and problems
·
Design
aspects of the water injection system
·
Water
injection systems: water sources (produced water, aquifers and seawater), water
compatibilities and scale, and basic water treatment
·
Water
quality: quality issues and associated risks, the effect of injection water
quality on infectivity
·
Water
flood monitoring and management
·
Reservoir
performance with water flooding projects
·
Effects
of water injection on the recovery factor and reserves
Day (5): Oil Recovery Enhancement Techniques
·
Introduction
to enhanced oil recovery techniques
·
Conventional
and none conventional EOR processes
·
Chemical,
thermal, and miscible EOR methods
·
EOR
processes concepts and mechanisms
·
Screening
criteria guidelines of the EOR processes
·
Performance
of the EOR processes and expected recovery factors
·
Development
plans of the EOR processes
·
Stages
of the EOR projects
·
Role
of the reservoir management for the application of the EOR processes
·
Reservoir
management case studies of mature fields: several development plans for water
floods and EOR projects.
Training Method
A highly
interactive combination of lecture and discussion sessions will be managed to
maximize the amount and quality of information, knowledge, and experience
transfer. The sessions will start by raising the most relevant questions and
motivating everybody to find the right answers. The attendants will also be
encouraged to raise more of their questions and to share developing the right
answers using their analysis and experience. Course material through power
point equipped with necessary animation, learning videos, and general
discussion to provide the participant with full understanding concerning the
subject course will be provided.
Flip chart –
Lectures – Practical situations – Video – PowerPoint – Presentation – style coach- led discussions – activities – Exercises - Quiz - Case study - Assessment.
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