Et profilbilde

Professor
Jann Rune Ursin { "honorific-suffix": "Professor", "fn": "Jann Rune Ursin", "tel": "Telefon: 51832283", "email": "jann-rune.ursin@uis.no" }

Avdeling/enhet Det teknisk- naturvitenskapelige fakultet
Institutt/senter Institutt for petroleumsteknologi
Rom KE E-390

 

Forskningsområder

 

Utvalgte publikasjoner

 

Pågående forskning

 

Arbeidserfaring

 

Vitenskapelige publikasjoner (fra CRISTin)

  • Time, R. W.; Ursin, Jann Rune; Read, Peter A. (2009). Reservoir Evaluation and Optimization. Forlaget Vett & Viten. ISBN 9788231500087. 202 s.
  • Zolotukhin, A.B.; Ursin, J.-R. (2000). Introductionto Petroleum Reservoir Engineering. Norwegian Academic Press, Kristiansand. ISBN 82-7634-065-2. 407 s.
  • Ursin, J.R.; Mannes, T. (1996). Fluid Phase Pressure. Stavanger College.
  • Ursin, J.R.; Paulsen, John Eirik (1996). Tiltak for rensing av jordmasse.
  • Zolotukhin, A.B.; Ursin, J.R. (1995). Reservoar Engineering. Rogaland University Centre.
  • Sokama-Neuyam, Yen Adams; Ursin, Jann Rune (2015). CO2 Well Injectivity: Effect of Viscous Forces on Precipitated Minerals. SPE; 2015-12-06 - 2015-12-09.
  • Sokama-Neuyam, Yen Adams; Ursin, Jann Rune (2015). The Effect of Mineral Deposition on CO2 Well Injectivity. SPE; 2015-06-01 - 2015-06-04.
  • Ursin, J.-R.; Zolotukhin, A.B. (1999). Using the Fault Block Modelling Approach and Fuzzy Optimization Technique for the Development Planning of a Field with Complex Geology.
  • Ursin, J.R.; Gulbrandsen, S. (1999). Well location Optimization Study for Strongly Compartmentalized Gas Reservoir, using Fault Block Modelling.
  • Ursin, J.R. (1998). Fault Block Modelling-An Alternative Simulation Tool for Strongly Compartmentalised Gas Reservoirs.
  • Ursin, J.R. (1998). Multi Model Simulation Study for Strongly Faulted Gas Condensate Reservoir Using Fault Block Modelling.
  • Ursin, J.R. (1998). The fault block model: A novel approach for faulted gas reservoirs.
  • Ursin, J.R.; Zolotukhin, A.B. (1998). Optimalization of Gas Condensate Field Production Performance by Fault Block Modelling and Desision Under Uncertainty Technique.