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CCS 800

Carbon Capture, Utilization and Storage

This course provides participants with a comprehensive knowledge of and  their application in CCUS. The course is field study based. It presents  introduction, economics, site selection, risk and design of measurement,  monitoring and verification (MMV). Participants will learn how to  objectively evaluate CCUS projects both outside of simulation modeling  and using simulation modeling that has been done to the feasibility phase  of CCUS projects.

COURSE SCHEDULE

Code Date Location price (€)*
CCS 800 20 - 24 Apr 2025 Online 1990
CCS 800 6 - 10 Jul 2025 Online 1990
CCS 800 16 - 20 Mar 2025 Stavanger 3990
CCS 800 11 - 15 Nov 2024 Dubai 3990

* Prices are subject to VAT and local terms. Ph.D. students, groups (≥ 3 persons) and early bird registrants (8 weeks in advance) are entitled to a DISCOUNT!

COURSE SCHEDULE

Code Date Location price (€)*
CCS 800 2 - 6 Nov 2025 Dubai 3990

* Prices are subject to VAT and local terms. Ph.D. students, groups (≥ 3 persons) and early bird registrants (8 weeks in advance) are entitled to a DISCOUNT!

COURSE OVERVIEW

COURSE OUTLINE

5 days
Day 1
  • Course overview
  • Outline for Risk MMV Surveillance
  • Cost, Cost drivers, practical economics
  • What are these CCS/CCUS Saline (SA)  vs. Depleted Gas Reservoirs
  • General Workflow Storage Efficiency,  displacement efficiency, CO2  properties, CO2 trapping, Trapping  mechanisms, infectivity and  introduction to Subsurface Risk
Day 2
  • Volumetric, Plume migration Infectivity
  • Risk Assessment, difference between
  • Field Case Quest Project: Uncertainty in Volumetric
  • Assessment of trap
  • Analogy: learning from field cases
  • Fractures, Faults and Geomechanics in  CCS projects
  • Trade-offs in MMV vs. cost
  • CO2-to-Fuels & Organic Chemicals
Day 3
  • Injection induced fractures
  • Above zone monitoring
  • Monitoring plume migration & geometry  history match
  • How does water salinity affect on CCS
  • Monitoring for feature events and processes  (FEP)
  • Surveillance tools and monitoring techniques  (MMV)
  • Approaches to mitigate, remediate, control  migration
  • How does the risk assessment change with  time
  • Long ranges forecasts
Day 4
  • Building a risk evaluation model
  • Workflow for depleted oil and gas
  • Class problem, dry gas reservoir, CCS
  • Depleted gas reservoir
  • Field cases
  • International field cases in CCUS: Sacroc,  Cran field, Sleipner, Snovit, Aquistore

INSTRUCTOR

Richard Baker

Richard Baker is a project manager with over 38 years of  practical experience in reservoir engineering, simulation, EOR  and thermal projects. His work along with other members  contribution’s has resulted in production increase of 150  Mstbo/d and added 100’s MMbbl reserves. He has worked on a  number of reservoir characterization / reservoir simulation

projects worldwide in 53 countries in both onshore and offshore environments. Richard has held  senior reservoir engineering positions at both Shell and Husky Oil and holds both 2 Bachelor’s  degrees and a Masters degree in Petroleum Engineering from the University of Calgary. He has  written a book called “Practical Reservoir Engineering and Characterization” (Elsevier 2015).  Richard is a Distinguished Author Member of the Petroleum Society of CIM and received an SPE  award in 2007 and a CIM service award in 2008. He has twice won SPE Reservoir  Characterization award for Canada and nominated for World Reservoir Characterization award.  He has won 2018 SPE Mentoring Award for Canada.

FAQ

DESIGNED FOR

The course is designed for geologists with little  knowledge and experience in the study of CCUS.  The objective of the course is to establish a  foundation so that participants are able to  understand, risk evaluation, reservoir characteristics  and monitoring, measurement and verification.

COURSE LEVEL
  • Intermediate to Advance

LEARNING OBJECTIVES

Attendees will understand the components based  on economics, Risk and MMV to optimize CCS  projects and develop timelines and identify key  milestones (along with KPI’s) of potential  projects. By including Risk and MMV Participants will have a strong understanding for evaluating Depleted Gas Reservoirs (DGR) and Saline Aquifers (SA) as well as an understanding  of CCS for both Sandstones and Carbonates. The  emphasis of the course is actual “Field Case”  based and provides a practical knowledge and examples order to economically optimize CCS projects.

REGISTER

Registration is now OPEN!

Ph.D. students, group and early bird

registrants are eligible to DISCOUNT!

For more details and registration please send  email to: register@petro-teach.com

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