Podrobnosti záznamu

Název
    Samples of Hot Dry Rock Soultz injection microearthquakes - mechanism using alternative source models
Autor
    Jechumtálová, Zuzana
    Šílený, Jan
Konference
    EAGE Conference & exhibition incorporationg SPE EUROPEC 2010 (74. : 04.06.2012-07.06.2012 : Copenhagen, Dánsko)
Jazyk
    anglicky
Typ dokumentu
    konferenční příspěvek (zahraniční konference)
Zdrojový dokument - monografie
    74th EAGE conference & exhibition incorporating SPE EUROPEC 2012
Strany
    D022/1-D022/5
Poznámky
    Projekt: GAP210/10/1728, GA ČR3cav_un_auth*0263509
    Rozsah: 5 s. : C
Předmětová kategorie
    comparison of MT and STI models
    geothermal reservoir
    induced microearthquakes
Klíčové slovo
    Alternative
    Dry
    Hot
    Injection
    Mechanism
    Microearthquakes
    Models
    Rock
    Samples
    Soultz
    Source
    Using
Abstrakt (anglicky)
   The geothermal reservoir at Soultz-sous-Forets is a valuable natural laboratory for understanding the mechanisms of the microearthquakes generated during stimulations and circulation tests. There is an ongoing effort towards the retrieval of the mechanisms though the indication of the type of fracturing of the rock massif still remains ambiguous. Recent studies indicate prevailingly shear slip but rarely there is also observed a non-shear pattern. Moment tensor - used today as a universal tool for description of the mechanism - captures general balanced dipole sources. However, for practice it may be too general as it may include also non-physical sources. Opening new fractures can be described in the first approximation by a tensile crack, optionally combined with a shear slip. We call this alternative model a shear-tensile/implosion source model.
   From the bulk of the seismicity recorded during stimulation in 2003, we concentrted on the first phase of the injection when only a single borehole in the site was stimulated.
Přispěvatel
    AV ČR Brno, Geofyzikální ústav
Kód přispěvatele
    AV ČR, GFÚ
Zdrojový formát
    U
Datum importu
    9. 12. 2013