preloader

RES 434

Underground Gas Storage

COURSE SCHEDULE

Code Date Location price (€)*
RES 434 13 - 17 Jul 2026 Online 3300
RES 434 23 – 27 Nov 2026 Online 3300
RES 434 22 –26 Jun 2026 Istanbul 4400
RES 434 5 – 9 Oct 2026 Dubai 4400

COURSE OVERVIEW

This course is designed to provide participants with both fundamental and applied knowledge of Underground Gas Storage (UGS) systems. The program begins with an overview of gas reservoir engineering principles, followed by a review of global energy supply trends and the strategic role of natural gas. The concept of UGS as a peak-shaving and energy security solution is then introduced and discussed.

The course continues with a review of gas phase behavior, gas reservoir engineering fundamentals, and gas flow characteristics specific to UGS operations. Key topics include the application of the general material balance equation to UGS systems, reservoir fluid inventory analysis, and optimization of injection and withdrawal cycles.

In addition, the course addresses well pattern design for storage fields and the design considerations for surface facilities associated with UGS operations, providing participants with a comprehensive understanding of both subsurface and surface aspects of gas storage projects.

COURSE OUTLINE

3 days
Day 1

o Worldwide Distribution of Hydrocarbon Reservoirs

o Worldwide energy supply

o Historical Evolution of Gas Injection

o Different modes of Gas Injection: PM, CCS, EOR, UGS

o Underground gas storage (UGS)

o History and background of UGS in the World

o Different levels of UGS

o Potential underground formations for UGS

o Concepts of cushion gas, working gas

o Monitoring of gas migration during UGS operation

Day 2

o A review of Gas Reservoir phase behavior

o Pressure-Volume-Temperature (PVT) Experiments

o Constant Composition Expansion

o Differential Liberation

o Constant Volume Depletion

o Flash Separation

o Swelling Test

o The Impact of Gas Injection on Phase Behavior of Hydrocarbons

o N2 Injection

o CO2 Injection

o CH4 Injection

o The Effect of Gas Injection on Asphaltene Precipitation

o Pure N2

o Pure CO2

o Pure CH4

o CH4 Dominant

o CO2 Dominant

o Comparison of Different Gases

o Optimum Design of Gas Injection

o PVT Challenges associated with Gas Injection and UGS

o Reservoir Fluid Phase Behavior in UGS

o Injection Gas versus Reservoir Fluid

o Sour Gas versus Sweet Gas

o Condensate Re-vaporization during UGS

Case study: Spreadsheet Calculations of Gas PVT

Day 3

o Gas reservoir engineering

o The Diffusivity Equation for Gas Reservoirs

o General material balance equation for gas reservoir

o High Velocity Effects in Gas Flow

o Gas Flow in Multilayer Reservoirs

o Solution of Non-Linear Diffusivity Equation

o General material balance equation for UGS

o Reserve Estimate in UGS

o Drainage Radius in UGS

o Candidate Reservoirs for UGS

o Worldwide UGS Projects

o Screening Criteria for UGS

o Reservoir fluid inventory analysis

o Optimum design of injection/ withdrawal in UGS

o Optimum well pattern in UGS

o Condensate production during UGS

o Impact of depleted reservoir fluid composition on UGS

o Well Pattern in UGS

Case study: UGS in a naturally fractured, depleted gas reservoir

Case study: Spreadsheet Calculations of Gas Reservoir Material Balance, UGS Material Balance in a depleted gas reservoir

Case Study: Caprock Integrity and Storage Capacity ducring CCS in a depleted carbonate formation

Day 4

o Optimum time to start UGS in a depleted reservoir

o Monitoring of UGS Projects

o Surface Monitoring

o Well Monitoring

o Wellbore Integrity Monitoring

o Micro-seismic Monitoring

o Numerical Simulation and Dynamic Modelling of UGS

o Basic design of surface facilities for UGS

o Design Considerations

o Design Basis

o Pipeline Design

o Compressor Design

o Intercooler design

o Separator Design

Day 5

oHSE regulations of surface facilities

o Pre-treatment of injection fluid

o Post-treatment of withdrawal fluid

o Corrosion Challenges in UGS of Acid Gas

o Cap Rock Integrity

o Health, Safety and Environment (HSE) of UGS

INSTRUCTOR

Instructor Profile

FAQ

DESIGNED FOR

o A reservoir engineer looking towards the basics and reservoir engineering aspects of UGS
o A strategic energy expert who’s interested
to learn the economic features of UGS in a world energy portfolio.
o A petroleum engineer who’s interested to understand the impact of successive injection/withdrawal on well integrity.
o A chemical process engineer looking to learn about the surface injection/withdrawal facilities design for UGS.

COURSE LEVEL
  •  Intermediate 
LEARNING OBJECTIVES

o Overview of Gas Reservoir Engineering
o Overview of Gas fluid phase behavior
o Fundamentals and history of underground gas storage (UGS)
o General material balance equation in the Gas reservoir
o Injection/Withdrawal surface facilities
o Well pattern and well integrity in UGS
o Inventory verification in UGS
o Simulation of UGS
o Monitoring of gas migration

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

REQUEST IN HOUSE

Would you like a PetroTeach training course delivered at a time or location to suit you? 

click for request in house

Shopping cart
We use cookies to improve your experience on our website. By browsing this website, you agree to our use of cookies.
Start typing to see products you are looking for.