MENU
Der Seiteninhalt beginnt hier

Luca Urpi

Post-doc researcher in the induced seismicity group

Luca Urpi
Swiss Seismological Service (SED)
ETH Zürich
Luca Urpi
NO H 62
Sonneggstrasse 5
8092 Zürich

  +41 44 633 83 72
  

Luca's research focus is on understanding the relation between the temperature, pressure and deformation induced by human activities on the underground and their relation with the number and the size of the induced and triggered events. The occurence of seismic event with human activities is rare, but it can affect local population quality of life, with psychological and material impact.

Historically, the occurence of shaking and vibration associated with mining activities predates the existence of seismology as a science. Today, quantifying and mitigating the potential seismic risk associated with human activities is of uttermost importance in a variety of settings, ranging from fluid injection and production in the hydrocarbon industry to the mining of the rare earth metal necessary for the the renewable energies infrastructure. 

To achieve this goal, he applies numerical tools to analyze historical cases of induced seismicity and to forecast the potential occurence of seismicity in future human activities.

Dec. 2013 - March 2015

Universiteit Utrecht: Experimental rock deformation/HPT-lab

April 2010 - Dec. 2013

GFZ-Potsdam: Section Reservoir Technologies

Nov. 2009

Universitá di Trieste: November 2009 M.Sc Physics

ETH Research Collection

Urpi, L., Rinaldi, A.P., Rutqvist, J., Cappa, F., Spiers,C.J., Dynamic simulation of CO2-injection-induced fault rupture with slip-rate dependent friction coefficient, Geomechanics for Energy and the Environment, Volume 7, September 2016, Pages 47-65, ISSN 2352-3808, http://dx.doi.org/10.1016/j.gete.2016.04.003

Zimmermann, G., Hofmann, H., Babadagli, T., Yoon, J.-S., Zang, A., Deon, F., Urpi, L., Blöcher, G., Hassanzadegan, A., Huenges, E. (2015): Multi-fracturing and cyclic hydraulic stimulation scenarios to develop Enhanced Geothermal Systems – Feasability and mitigation strategies to reduce seismic risk - Proceedings, World Geothermal Congress (Melbourne 2015), p. 6.

Hassanzadegan, A., Blöcher, G., Milsch, H., Urpi, L., Zimmermann, G. (2014): The effects of temperature and pressure on the porosity evolution of Flechtinger Sandstone. - Rock Mechanics and Rock Engineering, 47, 2, p. 421-434. http://doi.org/10.1007/s00603-013-0401-z |

Urpi, L., Blöcher, G., Zimmermann, G., Wees, J.D. van & Fokker, P. (2013). Coulomb stress change during and after tensile fracture opening in a geothermal reservoir. In 47th US Rock Mechanics / Geomechanics Symposium 2013, 23 June 2013 through 26 June 2013, San Francisco, CA (pp. 969-974).

Vesnaver, A., Urpi, L. (2013): Full three-dimensional relocation and tomographic inversion of the 1977-2008 earthquakes in north-eastern Italy: a feasibility study. - Annals of Geophysics, 56, 1. http://doi.org/10.4401/ag-5760

Urpi, L., Zimmermann, G., Blöcher, G., Kwiatek, G. (2011): Microseismicity at Groß Schönebeck - a Case Review, 36th Workshop on Geothermal Reservoir Engineering (Stanford, USA 2011).