Et profilbilde

Alexander Yu Rozhko { "honorific-suffix": "Professor", "fn": "Alexander Yu Rozhko", "tel": "", "email": "" }

Faculty Faculty of Science and Technology
Department Department of Petroleum Technology

Courses taught

Research fields

Selected publications

Research in progress

Work experience

Scientific publications (from Cristin)

  • Rozhko, Alexander; Podladtchikov, Iouri; Renard, Francois Marie Paul L (2007). Role of seepage forces on hydraulic fracturing and failure patterns. Unipub forlag. 100 p.
  • Rozhko, Alexander Yu (2017). Effect of capillary pressure and contact angle hysteresis in a partially-saturated crack on low frequency moduli and attenuation. NTNU; 2017-05-29 - 2017-06-02.
  • Rozhko, Alexander Yu; Wennberg, Ole Petter; Jonoud, Sima (2017). Tu A13 Modelling of normal net stress effect on two-phase relative permeability and capillary pressure of rough-walled fracture. EAGE and IOR Norway; 2017-04-24.
  • Rozhko, Alexander Yu (2015). Modeling of Stress and Pressure Dependence of the Sealing and Transport Properties of the Fault. EAGE; 2015-09-20 - 2015-09-24.
  • Rozhko, Alexander Yu (2012). Effect of Osmotic Force On Apparent Fracture Toughness. American Rock Mechanics Association; 2012-06-24 - 2012-06-27.
  • Rozhko, Alexander Yu (2011). Capillary Phenomena In Partially-Saturated Rocks: Theory of Effective Stress. American Rock Mechanics Association;
  • Rozhko, Alexander Yu (2010). Scaling of Fluid-induced Seismicity by Coulomb Stress Transfer Model. EAGE SPE EUROPEC;
  • Rozhko, Alexander Yu (2010). Unconfined Compressive Strength of Partially Saturated Shales: the Fracture Mechanics Approach.
  • Nicolaisen, Filip; Malthe-Sørenssen, Anders; Nermoen, Anders; Rozhko, Alexander (2007). Simulations of Hydrothermal Vent Complexes. AGU; 2007-12-10 - 2007-12-14.
  • Rozhko, Alexander; Podladtchikov, Iouri (2005). Vent Modeling. 2005-05-04 - 2005-05-06.
  • Rozhko, Alexander; Podladtchikov, Iouri (2005). Vent Modeling. 2005-09-08 - 2005-09-14.
  • Rozhko, Alexander (2004). Surface wave propagation along the boundary with air.