• Home
• About us
• Our Courses
  • Accounting & Financial Management Courses
  • Agriculture Courses
  • Artificial Intelligence Courses
  • Aviation & Airports Management Courses
  • Banking Courses
  • Business & Governance Courses
  • Climate Change Courses
  • Computer & Digital Skills Courses
  • Economics and Econometric Courses

  • Engineering & Technical Courses
  • Food Safety and Quality Courses
  • GIS & Remote Sensing  Courses
  • Human Resource Management Courses
  • Humanitarian & NGO Management Courses
  • Information Security & ICT Courses
  • Insurance Courses
  • Knowledge & Records Management Courses
  • Leadership & Management Courses

  • Legal, Compliance & Regulatory Affairs Courses
  • Library & Information Science Courses
  • Maritime,Blue Economy, and Port Management Courses
  • Marketing Courses
  • Monitoring & Evaluation Courses
  • Occupational Health & Safety Courses
  • Office Administration Courses
  • Oil and Gas Courses
  • Pension and Retirement Courses

  • Personal Development Courses
  • Procurement  & Supply Chain Management Courses
  • Project Management Courses
  • Real Estate Courses
  • Research & Data Analysis Courses
  • Risk Management Courses
  • SACCO courses
  • Social Protection Courses
• Blog
• Courses
• Contact us

Course Details

• Home
•  dynamic Subsurface Imaging: 4d Seismic And Reservoir Monitoring Training Course in Colombia

 Dynamic Subsurface Imaging: 4D Seismic and Reservoir Monitoring Training Course

Introduction

As oil and gas fields mature, understanding the dynamic changes occurring within the reservoir due to production and injection activities becomes paramount for optimizing recovery and extending field life. Traditional static reservoir models provide a snapshot, but 4D seismic (time-lapse seismic) offers a revolutionary approach by imaging the subsurface at different points in time. This allows geoscientists and engineers to directly observe fluid movement, pressure changes, and reservoir compaction, providing invaluable insights for proactive reservoir management.

This intensive training course is meticulously designed to equip participants with a comprehensive and practical understanding of 4D seismic and its application in reservoir monitoring. From exploring the fundamental principles of time-lapse seismic data acquisition and processing to mastering the interpretation of 4D seismic attributes, integrating with other surveillance data, and leveraging these insights for production optimization, you will gain the expertise to manage dynamic reservoirs effectively. This empowers you to enhance hydrocarbon recovery, reduce operational risks, and strategically contribute to the efficient and sustainable production of energy resources.

Target Audience

• Reservoir Engineers and Production Engineers.
• Geophysicists and Geologists specializing in Reservoir Characterization.
• Development Managers and Asset Managers.
• Well Surveillance and Optimization Teams.
• Data Scientists interested in Time-Lapse Data.
• Senior Executives in E&P Companies.
• Academics and Students in Petroleum Engineering or Geophysics.
• Anyone involved in optimizing production from mature oil and gas fields.

Duration: 10 days

Course Objectives

Upon completion of this training course, participants will be able to:

• Understand the fundamental principles and benefits of 4D seismic (time-lapse seismic).
• Grasp the various methods of 4D seismic data acquisition and processing.
• Analyze the physical basis for 4D seismic signals (fluid and pressure effects).
• Comprehend the interpretation of 4D seismic attributes for reservoir monitoring.
• Evaluate the integration of 4D seismic data with other surveillance data (well logs, production data).
• Develop practical skills in utilizing 4D seismic insights for production optimization and well planning.
• Navigate the challenges and limitations of 4D seismic implementation.
• Formulate robust strategies for deploying 4D seismic and other advanced monitoring techniques for improved reservoir management.

Course Content

1. Introduction to Reservoir Monitoring and 4D Seismic

• Defining Reservoir Monitoring Module: continuous surveillance of reservoir behavior during production
• Limitations of Static Models Module: inability to capture dynamic changes
• Introduction to 4D Seismic Module: time-lapse seismic, imaging changes in the subsurface over time
• Benefits of 4D Seismic Module: understanding fluid movement, pressure changes, sweep efficiency, remaining oil
• The value proposition of dynamic reservoir imaging

2. Physical Basis for 4D Seismic Signals

• Rock Physics Principles Module: relationship between rock properties (porosity, fluid saturation, pressure) and seismic velocity/impedance
• Fluid Substitution Modeling Module: predicting seismic response for different fluid types
• Pressure Effects on Seismic Module: how reservoir pressure changes impact seismic velocity
• Saturation Effects on Seismic Module: how changes in oil/gas/water saturation impact seismic response
• Understanding the underlying physics that enable 4D seismic

3. 4D Seismic Data Acquisition

• Repeatability Requirements Module: ensuring consistency between baseline and monitor surveys
• Acquisition Methods Module: towed streamer, ocean bottom cable (OBC), ocean bottom node (OBN), permanent reservoir monitoring (PRM)
• Survey Design Considerations Module: source and receiver repeatability, survey geometry
• Challenges in 4D Acquisition Module: weather, currents, platform obstructions
• Planning and executing high-quality 4D seismic surveys

4. 4D Seismic Data Processing

• Repeatability Enhancement Module: matching, cross-equalization, noise attenuation
• 4D Attributes Generation Module: difference volumes, time shifts, amplitude changes
• Quantitative Interpretation (QI) for 4D Module: inversion, AVO analysis on time-lapse data
• Challenges in 4D Processing Module: non-repeatable noise, overburden effects
• Transforming raw seismic data into interpretable 4D volumes

5. 4D Seismic Interpretation

• Identifying Fluid Contacts Movement Module: observing water/gas breakthrough, sweep fronts
• Mapping Pressure Changes Module: identifying depleted zones, pressure support
• Detecting Remaining Oil Module: identifying bypassed oil, unswept areas
• Interpreting Fault Seal/Leakage Module: observing fluid flow across faults
• Time-Lapse Inversion Results Module: interpreting changes in reservoir properties
• Unlocking geological and fluid flow insights from 4D seismic

6. Integration of 4D Seismic with Other Surveillance Data

• Well Data Integration Module: well logs (time-lapse logs), production data, pressure data
• Reservoir Simulation Integration Module: history matching with 4D seismic, calibrating models
• Geological Model Integration Module: updating static models with dynamic insights
• Production Logging Tools (PLT) and Tracer Data Module: complementing 4D seismic
• Building a comprehensive picture of reservoir dynamics

7. Reservoir Monitoring Beyond 4D Seismic

• Permanent Reservoir Monitoring (PRM) Module: continuous seismic acquisition for real-time insights
• Distributed Acoustic Sensing (DAS) Module: fiber optic sensing for wellbore and near-wellbore monitoring
• Distributed Temperature Sensing (DTS) Module: monitoring temperature profiles in wells
• Pressure Gauges and Downhole Sensors Module: continuous pressure and temperature measurements
• Overview of other advanced technologies for dynamic reservoir surveillance

8. Production Optimization using 4D Seismic Insights

• Identifying Infill Drilling Opportunities Module: targeting bypassed oil zones
• Optimizing Water/Gas Injection Module: adjusting injection rates, patterns based on sweep efficiency
• Well Re-Completions and Workovers Module: targeting new zones, shutting off water/gas
• Managing Production Decline Module: proactive interventions to sustain rates
• Translating 4D seismic interpretations into actionable production strategies

9. Challenges and Limitations of 4D Seismic

• Cost and Complexity Module: high investment in acquisition and processing
• Non-Repeatability Issues Module: noise, source/receiver variations, environmental factors
• Resolution Limitations Module: ability to detect small changes
• Interpretation Ambiguities Module: multiple geological scenarios explaining 4D signals
• Data Integration Challenges Module: combining diverse datasets effectively
• Understanding the practical hurdles in 4D seismic implementation

10. Case Studies and Future Trends

• Review of Successful 4D Seismic Projects Module: lessons learned from various fields globally
• 4D Seismic for CO2 Storage Monitoring Module: tracking CO2 plume movement in CCS projects
• Machine Learning and AI in 4D Seismic Module: automated interpretation, anomaly detection
• Full Waveform Inversion (FWI) for 4D Module: advanced imaging for improved resolution
• The evolving role of 4D seismic in the digital oilfield and energy transition.

CERTIFICATION

• Upon successful completion of this training, participants will be issued with Macskills Training and Development Institute Certificate

TRAINING VENUE

• Training will be held at Macskills Training Centre. We also tailor make the training upon request at different locations across the world.

AIRPORT PICK UP AND ACCOMMODATION

• Airport pick up and accommodation is arranged upon request

TERMS OF PAYMENT

Payment should be made to Macskills Development Institute bank account before the start of the training and receipts sent to info@macskillsdevelopment.com

For More Details call: +254-114-087-180

 

 dynamic Subsurface Imaging: 4d Seismic And Reservoir Monitoring Training Course in Colombia

Download Course Brochure

Dates	Fees	Location	Action