eprintid: 2279
rev_number: 14
eprint_status: archive
userid: 6
dir: disk0/00/00/22/79
datestamp: 2020-07-13 08:54:37
lastmod: 2020-11-24 08:47:02
status_changed: 2020-07-13 08:54:37
type: monograph
metadata_visibility: show
creators_name: Carstens, Pia
corp_creators: Q-CON
title: D5.2
Model for Fluid Migration in the Sub-surface
subjects: O
subjects: RS2
subjects: SG
divisions: S4CE-1
full_text_status: none
monograph_type: documentation
keywords: Reservoir modelling, structural modelling, fracture modelling, DFN, fluid flow simulation,
seismo-hydraulic pressure mapping, SHPM, United Downs Deep Geothermal Project, Cooper
Basin, St. Gallen
abstract: This deliverable D5.2 – ‘Model for Fluid Migration in the Sub-surface’ – describes the approach
to set up models for fluid flow in the sub-surface, the workflow, and the rationale behind it. The
deliverable includes a framework for making prognoses of reservoir performance and induced
seismicity response based on the sub-surface information available at a certain stage of
geothermal project development.
Part of this deliverable is the development of a new method to infer hydraulic reservoir
pressure changes from induced seismicity observations (SHPM). The SHPM approach was
initially intended to be developed using data from UDDGP. However, as drilling at UDDGP was
delayed (drilling only started in November 2018 instead of early 2018 as planned), the
methodology of SHPM was first developed and tested with data sets from the Cooper Basin
(Australia) and from the S4CE field site St. Gallen (Switzerland).
date: 2019
publisher: Science For Clean Energy Project
official_url: http://science4cleanenergy.eu/wp-content/uploads/2019/02/S4CE_D5.2.pdf
access_IS-EPOS: unlimited
owner: Publisher
acknowledgments2: S4CE_project
citation:   Carstens, Pia  (2019) D5.2 Model for Fluid Migration in the Sub-surface.  Documentation. Science For Clean Energy Project.