Intelligent Energy, Oil & Gas Fields Modeling and Optimization
Course Length: 5 Days Course
Dates:
Course
Description:
This course provides a comprehensive overview of advanced
intelligent completions for oil and gas wells. The benefits and multiple
applications of the intelligent wells will be discussed. Design methodologies
of completing intelligent wells will also be emphasized with multiple hands-on
field examples.
Who Should Attend:
This course is designed for professional petroleum engineers,
reservoir engineers, production
engineers,
operation engineers, drilling engineers and asset managers
What You Will Learn:
·
Learn about Intelligent Well
Completion Systems components: from downhole sensors and actuators (ICV, ICD
and mechanically driven sleeves)
·
Provide design methodologies of completing
intelligent wells
·
Hands-on exercises on intelligent
well Modelling and Value Quantification to build nodal analysis models to
determine the desired behavior of remote actuators
·
Hands-on training of Intelligent field Modelling and
Value Quantification
·
Optimal operating strategy for wells with downhole
inflow control technologies
·
Provide a general overview of
Digital Oilfield and Real-time production optimization by sharing
the best practices
and lessons learned
after 10 years of digital
oilfield (DOF) implementations
Course Outline:
·
Overview of intelligent or smart well technologies.
Economics of intelligent wells
·
Intelligent well components and their potential applications
·
Selection between passive & active downhole flow
control technologies
·
Intelligent well completion
performance modeling and optimization using
nodal analysis
·
Comprehensive workflow for the design of intelligent
well completions
·
Intelligent field modeling and value quantification
using modeling tools
·
Comprehensive workflow for the
design of advanced well completions and field
development well configuration
·
Automated optimization strategies
for integrated intelligent well placement and
design in oil fields
·
Workflow for uncertainty reduction in intelligent field
development planning
·
Flow estimation & allocation
using downhole pressure and distributed temperature
data
·
Using distributed downhole
measurements to optimize production in intelligent
wells
·
Closed loop monitoring and optimization of
intelligent well operations performance
·
Class exercises and field case studies