Learning Outcomes:
By the end of the module students should be able to:
Understand the definition, calculation method, and practical significance of key geostatistical properties.
Describe, and apply in Petrel, typical methods for constructing models for flow simulation
Indicative Module Content:
The 10 lectures follow the workflow of geostatistical characterisation and modelling guided towards construction of a sub-surface flow simulation model. The five practical classes follow the work-flow used to characterise and model flow units for flow simulation modelling, based on published datasets and modelled in Petrel.
Lecture 1: Distributions, averaging and sampling
Lecture 2: Variography
Lecture 3: Approaches to subsurface characterisation and modelling
Lecture 4: Facies modelling
Lecture 5: Property modelling
Lecture 6: Subdivision of the reservoir model
Lecture 7. The Geocellular reservoir model
Lecture 8. The flow simulator model
Lecture 9: Representative properties: scale and connectivity
Lecture 10: Machine leaning in characterisation and geomodelling
Practical 1: Data analysis and Variography (Petrel)
Practical 2: Facies modelling (Petrel)
Practical 3: Property modelling in (Petrel)
Practical 4: Fault surface modelling in (Petrel)
Practical 5: Flow simulation modelling (Eclipse/Petrel)