Muneer R 1
1. Effect of wettability and phase distribution on critical salt concentration for fines migration initiation in sandstone reservoirs
2. DLVO-based prediction of critical pH for fines migration in sandstone reservoirs
3. An integrated modeling approach to predict critical flow rate for fines migration initiation in sandstone reservoirs and water-bearing formations
4. Application of DLVO Modeling to Predict Critical pH for Fines Migration Pre-and Post-SiO2 and MgO Nanofluid Treatments in Sandstones
5. DLVO Modeling to Predict Critical Salt Concentration to Initiate Fines Migration Pre- and Post-Nanofluid Treatment in Sandstones
6. Micellization Behavior and Thermodynamic Characteristics of Saponin and SDS: The Impact of Silica Nanoparticles for Subsurface Formation Interaction Studies
7. Predicting the critical salt concentrations of monovalent and divalent brines to initiate fines migration using DLVO modeling
8. Unlocking the Power of Artificial Intelligence: Accurate Zeta Potential Prediction Using Machine Learning
9. Application of machine learning techniques to predict viscosity of polymer solutions for enhanced oil recovery
10. Laboratory Investigation of Nanofluid-Assisted Polymer Flooding in Carbonate Reservoirs
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