Mostafa, Mohamed EzzatMohamed EzzatMostafaBörner, JaschaJaschaBörnerVogler, DanielDanielVoglerWittig, VolkerVolkerWittigKammermann, B.B.KammermannBiela, Jürgen A.Jürgen A.BielaSaar, Martin O.Martin O.Saar2023-06-212023-06-212022https://publica.fraunhofer.de/handle/publica/44323910.3929/ethz-b-0005688622-s2.0-85145781124Drilling cost is one of the main challenges facing the utilization of deep closed-loop geothermal systems, so-called Advanced Geothermal Systems (AGS). Plasma-Pulse Geo-Drilling (PPGD) is a novel drilling technology that uses high-voltage electric pulse to damage the rock without mechanical abrasion. PPGD may reduce the drilling costs significantly compared to mechanical rotary drilling, according to a comparative analysis that assumes ambient operating conditions. However, the level of performance of PPGD under deep wellbore conditions of higher pressures and temperatures is still ambiguous. Therefore, this contribution presents preliminary experiment results from the laboratory that investigate the effect of high lithostatic pressures of up to 150 MPa, equivalent to a depth of ∼5.7 km, on the performance of PPGD.enpresentation