?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.relation=https%3A%2F%2Fepisodesplatform.eu%2Feprints%2F2279%2F&rft.title=D5.2%0D%0AModel+for+Fluid+Migration+in+the+Sub-surface&rft.creator=Carstens%2C+Pia&rft.subject=Other-additional+study&rft.subject=St.+Gallen&rft.subject=Geothermal+energy+production&rft.description=This+deliverable+D5.2+%E2%80%93+%E2%80%98Model+for+Fluid+Migration+in+the+Sub-surface%E2%80%99+%E2%80%93+describes+the+approach%0D%0Ato+set+up+models+for+fluid+flow+in+the+sub-surface%2C+the+workflow%2C+and+the+rationale+behind+it.+The%0D%0Adeliverable+includes+a+framework+for+making+prognoses+of+reservoir+performance+and+induced%0D%0Aseismicity+response+based+on+the+sub-surface+information+available+at+a+certain+stage+of%0D%0Ageothermal+project+development.%0D%0APart+of+this+deliverable+is+the+development+of+a+new+method+to+infer+hydraulic+reservoir%0D%0Apressure+changes+from+induced+seismicity+observations+(SHPM).+The+SHPM+approach+was%0D%0Ainitially+intended+to+be+developed+using+data+from+UDDGP.+However%2C+as+drilling+at+UDDGP+was%0D%0Adelayed+(drilling+only+started+in+November+2018+instead+of+early+2018+as+planned)%2C+the%0D%0Amethodology+of+SHPM+was+first+developed+and+tested+with+data+sets+from+the+Cooper+Basin%0D%0A(Australia)+and+from+the+S4CE+field+site+St.+Gallen+(Switzerland).&rft.publisher=Science+For+Clean+Energy+Project&rft.date=2019&rft.type=Reports&rft.type=NonPeerReviewed&rft.identifier=++Carstens%2C+Pia++(2019)+D5.2+Model+for+Fluid+Migration+in+the+Sub-surface.++Documentation.+Science+For+Clean+Energy+Project.+++++&rft.relation=http%3A%2F%2Fscience4cleanenergy.eu%2Fwp-content%2Fuploads%2F2019%2F02%2FS4CE_D5.2.pdf