Searched for: author:"van Wees, J.D."
(1 - 4 of 4)
document
Paap, B. (author), Kraaijpoel, D. (author), Wassing, B. (author), van Wees, J.D. (author)
Numerical simulations of seismic wave propagation usually rely on a simple source modelconsisting of an idealized point location and a moment tensor. In general, this is a validapproximation when the source dimensions are small relative to the distance of points at whichthe seismic wave motions are to be evaluated. Otherwise, a more realistic...
article 2020
document
van Wees, J.D. (author), Pluymaekers, M. (author), Osinga, S. (author), Fokker, P. (author), van Thienen-Visser, K. (author), Orlic, B. (author), Wassing, B. (author), Hegen, D. (author), Candela, T. (author)
Building geomechanical models for induced seismicity in complex reservoirs poses a major challenge, in particular if many faults need to be included. We developed a novel way of calculating induced stress changes and associated seismic moment response for structurally complex reservoirs with tens to hundreds of faults. Our specific target was to...
article 2019
document
Wassing, B.B.T. (author), van Wees, J.D. (author), Fokker, P.A. (author)
We constructed a coupled model to obtain a better understanding of the role of pore pressure changes in causing fracture reactivation and seismicity during enhanced geothermal systems operation (EGS). We implemented constitutive models for fractures in a continuum approach, which is advantageous because of the ease of integration in existing...
article 2014
document
Wassing, B.B.T. (author), van Wees, J.D. (author), Fokker, P.A. (author)
We developed a coupled code to obtain a better understanding of the role of pore pressure changes in causing fracture reactivation and seismicity during EGS. We implemented constitutive models for fractures in a continuum approach, which is advantageous because of the ease of integration in existing geomechanical codes (FLAC3D), the speed of the...
conference paper 2012
Searched for: author:"van Wees, J.D."
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