Searched for: +
(1 - 4 of 4)
document
van Wees, J.D. (author), van Bergen, F. (author), David, P. (author), Nepveu, M. (author), Beekman, F. (author), Cloetingh, S. (author), Bonté, D. (author), TNO Bouw en Ondergrond (author)
Tectonic modeling is often neglected in the basin modeling workflow and heat flow is most times considered a user input. Such heat flows can, therefore, result in erroneous basin modeling outcomes, resulting in false overoptimistic identification of prospective areas or failure to identify prospects. This is particularly true for areas with...
article 2009
document
Cloetingh, S. (author), Cornu, T. (author), Ziegler, P.A. (author), Beekman, F. (author), Ustaszewski, K. (author), Schmid, S.M. (author), Dèzes, P. (author), Hinsch, R. (author), Decker, K. (author), Lopes Gardozo, G. (author), Granet, M. (author), Bertrand, G. (author), Behrmann, J. (author), van Balen, R. (author), Michon, L. (author), Pagnier, H. (author), Rozsa, S. (author), Heck, B. (author), Tesauro, M. (author), Kahle, H.G. (author), Dewez, T. (author), Carretier, S. (author), Winter, T. (author), Hardebol, N. (author), Bada, G. (author), Dost, B. (author), van Eck, T. (author), TNO Bouw en Ondergrond (author)
Research on neotectonics and related seismicity has hitherto been mostly focused on active plate boundaries that are characterized by generally high levels of earthquake activity. Current seismic hazard estimates for intraplate domains are mainly based on probabilistic analyses of historical and instrumental earthquake catalogues. The accuracy...
article 2006
document
Cloetingh, S. (author), van Wees, J.D. (author), Ziegler, P.A. (author), Lenkey, L. (author), Beekman, F. (author), Tesauro, M. (author), Förster, A. (author), Norden, B. (author), Kaban, M. (author), Hardebol, N. (author), Bonté, D. (author), Genter, A. (author), Guillou-Frottier, L. (author), ter Voorde, M. (author), Sokoutis, D. (author), Willingshofer, E. (author), Cornu, T. (author), Worum, G. (author), TNO Bouw en Ondergrond (author)
Knowledge of temperature at drillable depth is a prerequisite in site selection for geothermal exploration and development of enhanced geothermal systems (EGS). Equally important, the thermo-mechanical signature of the lithosphere and crust provides critical constraints for the crustal stress field and basement temperatures where borehole...
article 2010
document
van Wees, J.D. (author), Cloetingh, S. (author), Ziegler, P.A. (author), Lenkey, L. (author), Beekman, F. (author), Tesauro, M. (author), Förster, A. (author), Norden, B. (author), Kaban, M. (author), Hardebol, N. (author), Voorde, M.T. (author), Willingshofer, E. (author), Cornu, T. (author), Bonté, D. (author), TNO Bouw en ondergrond (author)
For geothermal exploration and the development of enhanced geothermal systems (EGS) knowlegde of temperature at drillable depth is a prerequisite for site selection. Equally important is the thermo-mechanical signature of the lithosphere and crust which allow to obtain critical constraints for the crustal stress field and basement temperatures...
conference paper 2009
Searched for: +
(1 - 4 of 4)