Publications

  • Testing of EOR polymers - part II

    Read more

  • SPE-179589-PA Disproportionate Permeability Reduction of Water-Soluble Silicates Gelants: Importance of Formation Wettability

    Read more

  • Testing av EOR polymers

    Read more

  • A model for non-Newtonian flow in porous media at different flow regimes

    Read more

  • EOR Screening and Potential applications on the Norwegian Continental Shelf (NCS)

    Read more

  • Silicate Gel for In-depth Placement: Gelation Kinetics and Pre-flush Design

    Read more

  • Associative Polymers as Enhanced Oil Recovery Agents in Oil-Wet Formations: A Laboratory Approach

    Read more

  • Simulation of polymer mechanical degradation in radial well geometry

    Read more

  • Simulation of polymer mechanical degradation in radial well geometry

    Read more

  • Silicate Gel for In-depth Placement - Gelation Kinetics and Pre-flush Design

    Read more

  • Integration of IOR Research Projects through Generic Case Studies

    Read more

  • Temperature-switchable Polymer for Enhanced Oil Recovery

    Read more

  • Associative Polymers as Enhanced Oil Recovery Agents in Oil-wet Formations - A Laboratory Approach

    Read more

  • COREC Polymer - Environmentally acceptable polymers for chalk

    Read more

  • Chemical Screening and Evaluation for Water Management in Carbonate Naturally Fractured Reservoirs – Part I

    Read more

  • Chemical Screening and Evaluation for Water Management in Carbonate Naturally Fractured Reservoirs – Part II

    Read more

  • Core flood tests/formation damage tests

    Read more

  • Summary of (mainly) Polymer Research @ IOR Centre

    Read more

  • Conformance control by sodium silicate - comparision of products with different alkalinity

    Read more

  • A Model for Non-Newtonian Flow in Porous Media at Different Flow Regimes

    Read more

  • Impact of Choke Valves on the IOR Polymer Flooding Lessons Learned from Large Scale Tests

    Read more

  • Simulating gelation of silica for in-depth reservoir plugging using IORSim as an add on tool to ECLIPSE

    Read more

  • Water Control Chemicals for Improved Oil Recovery Applications in Naturally Fractured Chalk Formations - Highlights from SPE-180024 and SPE-180128

    Read more

  • Performance Benefits of Associative Polymers in Chemical EOR Applications

    Read more

  • Simulating gelation of silica for in-depth reservoir plugging using IORSim as an add on tool to ECLIPSE

    Read more

  • A Model for Non-Newtonian Flow in Porous Media at Different Flow Regimes

    Read more

  • Polymer flooding in sandpacks with a dual-porosity

    Read more

  • Polymer flooding in sandpacks with a dual-porosity

    Read more

  • A simulation study of a polymer flooding experiment in porous silica sand

    Read more

  • Resistivity measurements and polymer flooding of sandpacks with dual-porosity

    Read more

  • IORSim - an add on tool to ECLIPSE for simulating IOR processes

    Read more

  • In depth water diversion –  Upscaling from lab to field

    Read more

  • Impact of choke valves on the IOR polymer flooding. Lessons learned from large scale tests

    Read more

  • SPE-180024-MS: Polymers and Polymer-Based Gelants for Improved Oil Recovery and Water Control Applications in Naturally Fractured Chalk Formations

    Read more

  • Disproportionate Permeability Reduction of Water-Soluble Silicate Gelants - Importance of Formation Wettability

    Read more

  • Snorre In-Depth Water Diversion - New Operational Concept for Large Scale Chemical Injection from a Shuttle Tanker

    Read more

  • Polymer flooding – improved sweep efficiency for utilizing IOR potential

    Read more

  • SPE-173853-PA: Laboratory Testing of Environmentally Friendly Sodium Silicate Systems for Water Management Through Conformance Control

    Read more

  • SPE-179801-MS: Can Associative Polymers Reduce the Residual Oil Saturation?

    Read more

  • Towards an Understanding of the Performance of Associative Copolymers in Porous Media

    Read more

  • Planning for in-depth diversion using Sodium Silicate

    Read more

  • Disproportionate Permeability Reduction of Water-Soluble Silicate Gelants – Importance of Formation Wettability

    Read more

  • Polymer flow through water- and oil-wet porous media

    Read more

  • How to improve models for evaluating the potential of polymer flooding

    Read more

  • How to improve models for evaluating the potential of polymer flooding

    Read more

  • SPE-173853-MS: Laboratory Testing of Environmentally Friendly Chemicals for Water Management

    Read more

  • Associative Copolymers for Polymer Flooding Structure-Performance Relationships in Porous

    Read more

  • The use of HPAM-based associative polymers for EOR polymer flooding

    Read more

  • Polymers for EOR polymer flooding

    Read more

  • Numerical Evolution of Dynamic Core-Scale Experiments of Silicate Gels for Fluid Diversion and Flow-Zone Isolation

    Read more

  • Mariner Bressay polymer test program

    Read more

  • Polymer screening for the Mariner and Bressay fields

    Read more

  • When will polymer viscosity be a design criterion for EOR polymer flooding?

    Read more

  • SPE 165225: New Insights into the Mechanism of Mobility Reduction by Associative Type Copolymers

    Read more

  • SPE 164844: Experimental Investigation of Polymer Flow through Water- and oil-Wet Berea Sandstone Core Samples

    Read more

  • Core-scale simulation of polymer flow through porous media

    Read more

  • Polymer rheology

    Read more

  • An evaluation of the API rcommended practices for evaluation of polymers used in enhanced oil recovery

    Read more

  • Qualification of Sodium Silicate for In-Depth Diversion

    Read more

  • Screening of EOR polymers

    Read more

  • EOR polymers - Thermal stability

    Read more

  • Rheology measurements of water soluble polymers

    Read more

  • Snorre In-depth Water Diversion Using Sodium Silicate – Single Well Injection Pilot

    Read more

  • Overview of Industry Standing and Practices for Produced Water

    Read more

  • In-Depth Water Diversion Usin Sodium Silicate on Snorre

    Read more

  • Screening of polymers for EOR polymer flooding

    Read more

  • Thermal stability of polymer

    Read more

  • Mechanisms Involved in Microbially Enhanced Oil Recovery

    Read more

  • Low Salinity Water Floods, Grane

    Read more

  • In-Depth Water Diversion Using Sodium Silicate on Snorre - Factors Controlling In-Depth Placement

    Read more

  • Bio-Pac coreflood in low permeability chalk plug - 2

    Read more

  • In-depth water diversion using sodium silicate - preparation for single well field pilot on Snorre

    Read more

  • Polymer adsorption in Grane core plugs

    Read more

  • Qualification of EOR polymers

    Read more

  • Qualification of EOR polymers

    Read more

  • Polymer flooding - rheological properties of synthetic EOR polymers

    Read more

  • Biopack Coreflood in Low Thermability Choke Plug

    Read more

  • Qualification of polymers

    Read more

  • Qualification of polymers

    Read more

  • High temperature LCM, Cementing and Zonal Isolation using Wellcem HiTemp material

    Read more

  • Chemical Consolidation of Chalk Material

    Read more

  • Polymer Flooding – Flow Properties in Porous Media Versus Rheological Parameters

    Read more

  • How to Apply the Flow Velocity as a Design Criteria in RPM Treatments

    Read more

  • MEOR, A study of microbes and mechanisms at Ekofisk chalk reservoir

    Read more

  • Microbial Enchanced Oil Recovery - Mechanism

    Read more

  • Mobility control by foam. Final technical report

    Read more

  • Inteligel - Emulsified gel for water control

    Read more

  • IOR screening project - Heidrun field

    Read more

  • IOR screening project - Snorre Field

    Read more

  • Evaluation of the ThermaSet® Material Technology for Shutting off Gas behind Gravel Packed Sand Screens at Heidrun

    Read more

  • Emulsified gel for water shutoff in low permeability sand

    Read more

  • Mobility control by foam - status report 2005

    Read more

  • Gas shutoff by gel

    Read more

  • Injectivity Test of a Commercial RPM System

    Read more

  • How To Apply a Blocking Gel System for Bullhead Selective Water Shutoff: From Laboratory to Field

    Read more

  • IntelliGel: Self - Selective Systems, State of the Art

    Read more

  • Best Practice Document –

    Read more

  • SPE 94660 Investigation of Novel Chemical of Bullhead Water Shutoff Treatments

    Read more

  • SPE 94715 Making Sense of Return Permeability Data Measured in the Laboratory

    Read more

  • DPR Offshore Field Pilot at Veslefrikk: Qualification of chemical system

    Read more

  • Qualification of H2zero as DPR gel system - Phase II

    Read more

  • Controlling fluid loss with a Solid Less Kill Pill

    Read more

  • Quick Pre-Screening of RDF and Upscaling of Laboratory Return Permeability to Field Scale

    Read more

  • WP2002 Executive Summary

    Read more

  • Experimental testing of Kill Pill methods: Phase II

    Read more

  • Qualification of H2zero as DPR gel system

    Read more

  • Validation of a simple method to determine location of formation damage in cores

    Read more

  • Experimental testing of an oil solube gel system for water shutoff

    Read more

  • 2003//137 utgår - samme rapport som 2003/162 / pos 1860

    Read more

  • Pilot Testing of IOR Chemco's Emulsified Gel System for DPR Water Control

    Read more

  • Experimental testing of kill pill methods

    Read more

  • Acid stimulation, phase II

    Read more

  • International Center for Improved Oil Recovery - Prestudy

    Read more

  • Acid simulation, phase I

    Read more

  • Segregated flow is the governing mechanism of disproportionate permeability reduction in water and gas shutoff

    Read more

  • Improved Oil Productivity by Selective Water Control

    Read more

  • Improved Oil Productivity by Selective Water Control

    Read more

  • Injection for the purpose of deposition; Norwegian Continental Shelf

    Read more

  • IOR-02 Improved Oil Productivity by Selective Water Control

    Read more

  • Diversion by emulsion - Bulk properties

    Read more

  • "IOR Potential by using LLHW"

    Read more

  • DEMO2000 Project "Method for Independant Water Injector" NFR Project no.: 136711/298

    Read more

  • Pore-scale simulations of DPR gel placement

    Read more

  • Bruk av emulsjon som diverter ved brønnstimulering

    Read more

  • Environmentally benign blocking and selective gel systems III

    Read more

  • SPE 50619 Water shut-off: simulation and laboratory evaluation

    Read more

  • WELGEL - Progress report II

    Read more

  • Mechanistic study of disproportionate permeability reduction

    Read more

  • Disproportionate permeability reduction is not a panacea

    Read more

  • Water shut-off: simulation and laboratory evaluation

    Read more

  • Mechanistic study of disproportionate permeability reduction

    Read more

  • Environmentally benign blocking and selective gel systems. Annual report 1997

    Read more

  • Barriers against coning

    Read more

  • Geotermisk kraftproduksjon basert på produsert vann

    Read more

  • The possibility of temporarily blocking annulus by gel

    Read more

  • Water shut-off by disproportional reducing gel - a case study

    Read more

  • Selective gel systems for cost effective well treatment

    Read more

  • Placement of Gels

    Read more



International Research Institute of Stavanger
Mailing address:
Visiting address:
P.O. Box 8046, N-4068 Stavanger, Norway
Prof. Olav Hanssensvei 15, 4021 Stavanger


Phone:
Fax:

+47 51 87 50 00
+47 51 87 52 00

General email address: firmapost@iris.no
International Research Institute of Stavanger
Mailing address:
Visiting address:
P.O. Box 8046, N-4068 Stavanger, Norway
Prof. Olav Hanssensvei 15, 4021 Stavanger


Phone:
Fax:

+47 51 87 50 00
+47 51 87 52 00

General email address: firmapost@iris.no
International Research Institute of Stavanger
Mailing address:



Visiting address:
P.O. Box 8046
N-4068 Stavanger
Norway

Prof. Olav Hanssensvei 15 
4021 Stavanger

 
Phone:
Fax:
General email:
+47 51 87 50 00
+47 51 87 52 00
firmapost@iris.no