@article{Esbensen_Schovsbo_Kristensen_2015, place={Copenhagen, Denmark}, title={Down-hole permeability prediction – a chemometric wire-line log feasibility study from a North Sea chalk well}, volume={33}, url={https://geusbulletin.org/index.php/geusb/article/view/4478}, DOI={10.34194/geusb.v33.4478}, abstractNote={<p>Permeability in chalk depends primarily on porosity but also on other factors such as clay and quartz content, and can theoretically be described by the Kozeny equation using empirically determined constants (Mortensen <em>et al.</em> 1998; Røgen & Fabricius 2002). Recent attempts to predict permeability from wire-line logs have shown that compressional velocity within operative chalk units, defined by specific surface and hydraulic properties established from stratigraphy and core plugs, can provide excellent well permeability predictions (Alam <em>et al.</em> 2011). High-quality predictions depend on a solid knowledge of a multitude of parameters of the relevant ‘operative rock types’. The more detailed this a priori knowledge is, the better predictions can be achieved. But this approach may, or may not, be fast enough for wellsite operations or when core data are lacking. In this study, we illustrate a situation for direct permeability prediction if only well-site, wire-line logs are available.</p>}, journal={GEUS Bulletin}, author={Esbensen, Kim H. and Schovsbo, Niels H. and Kristensen, Lars}, year={2015}, month={Jul.}, pages={13–16} }