| An Experimental Study of Coupled In-Situ Heavy Oil Upgrading and Recovery using Nano-CatalystsElahi, Seyed Moein |
| A review on the application of differential scanning calorimetry (DSC) to petroleum products: Characterization and kinetic studyAhmadi Khoshooei, Milad, Fazlollahi, Farhad and Maham, Yadollah |
| A review on the application of differential scanning calorimetry (DSC) to petroleum products: Wax crystallization study and structural analysisAhmadi Khoshooei, Milad, Fazlollahi, Farhad, Maham, Yadollah, Hassan, Azfar and Pereira Almao, Pedro |
| Effect of Asphaltenes on Morphology and Rheological Properties of Asphaltenes/Multiphase Polymer BlendEshraghian, Afrooz, Kamkar, Milad and Sundararaj, Uttandaraman (U.T.) |
| Enhanced Recovery of Heavy Oil by a Nano-Catalytic In-Situ Upgrading ProcessElahi, Seyed Moein, Ahmadi Khoshooei, Milad, Scott, Carlos, Carbognani, Lante, Chen, Zhangxing (John) and Pereira Almao, Pedro |
| Heavy Oil Recovery by Surface Modified Silica Nanoparticle/HPAM NanofluidsRios Carreno, Laura, Aliabadian, Ehsan, Husein, Maen, Chen, Zhangxing (John), Maini, Brij and Sundararaj, Uttandaraman (U.T.) |
| High Dielectric Constant and Low Dielectric Loss via Poly (vinyl alcohol)/Ti3C2Tx MXene NanocompositeMirkhani, Seyyed Alireza, Shayesteh Zeraati`, Ali, Aliabadian, Ehsan, Naguib, Michael and Sundararaj, Uttandaraman (U.T.) |
| In-situ upgrading and enhanced recovery of heavy oil from carbonate reservoirs using nano-catalysts: Upgrading reactions analysisElahi, Seyed Moein, Scott, Carlos, Chen, Zhangxing (John) and Pereira Almao, Pedro |
| In-situ Upgrading Technology: Nanocatalyst for Improved Product QualityAhmadi Khoshooei, Milad and Pereira Almao, Pedro |
| Interfacial Rheology of Oil-(Polymers/Aqueous Nanofluids)Kamkar, Milad, Gerald G. Fuller and Sundararaj, Uttandaraman (U.T.) |
| Investigation of Gas Condensate Drop-Out Effect on Gas Relative Permeability by Lattice Boltzmann ModellingSoleimani, Rasa, Norouzi, Sevda and Rasaei, Mohammad Reza |
| Nonlinear Viscoelastic response of CNT-based Polymer NanocompositesKamkar, Milad and Sundararaj, Uttandaraman (U.T.) |
| Prevention of network destruction of
partially hydrolyzed polyacrylamide
(HPAM): Effects of salt, temperature, and
fumed silica nanoparticlesAliabadian, Ehsan, Kamkar, Milad, Chen, Zhangxing (John) and Sundararaj, Uttandaraman (U.T.) |
| Rheological properties of waterborne epoxy-nanocomposites containing edge and basal functionalized graphene oxideRezvani Moghadam, Amir, Kamkar, Milad, Ranjbar, Zahra and Sundararaj, Uttandaraman (U.T.) |
| Structural Characterization of CVD Custom-Synthesized CarbonNanotube/Polymer Nanocomposites in Large-Amplitude OscillatoryShear (LAOS) Mode: Effect of Dispersion Characteristics in ConfinedGeometriesKamkar, Milad, Sadeghi, Soheil, Arjmand, Mohammad and Sundararaj, Uttandaraman (U.T.) |
| The Design of Robust Phase Oscillator for Wearable Robotic SystemsDe la Fuente, Juan, Subramanian, Subramanian, Chinimilli, Prudhvi Tej, Redkar, Sangram and Sugar, Thomas |
| Viscoelastic and Dielectric Characterization of Carbon Nanotube/ polymer Nanocomposites in Presence of AsphaltenesEshraghian, Afrooz, Kamkar, Milad and Sundararaj, Uttandaraman (U.T.) |