November 22, 2024
Yousef Kazemzadeh

Yousef Kazemzadeh

Academic Rank: Assistant professor
Address: Department of Petroleum Engineering, Faculty of Petroleum, Gas and Petrochemical Engineering, Persian Gulf University, 7516913897, Bushehr, Iran
Degree: Ph.D in Petroleum Engineering
Phone: 07731222604
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title An experimental study toward possible benefits of water in oil emulsification in heavy oil reservoirs: comparing role of ions and nanoparticles
Type Article
Keywords
emulsion, smart water, nanocomposite, EOR, heavy oil
Journal MATERIALS RESEARCH EXPRESS
DOI 10.1088/2053-1591/ab1966
Researchers Yousef Kazemzadeh (First researcher) , Hosein Rezvani (Second researcher) , Ismail Ismail (Third researcher) , Mohammad Sharifi (Fourth researcher) ,

Abstract

The current study presents a comparison between tertiary injection of smart water (MgCl2 and NaCl brines) and nanofluid (Fe3O4 and Fe3O4/Chitosan) with a focus on the effect of water in heavy oil emulsification on the oil production. For this purpose, seawater (as a secondary injection fluid) and various concentrations of nanofluids and brines (as tertiary injection fluids) were injected into a carbonate sand pack. The produced fluid (oil + water) was separated by centrifugal force and the oil/water ratio was determined, which was then used in preparing different water in oil emulsions. The emulsions were then analyzed. The ultimate oil recoveries were monitored during tertiary injection of certain nanofluids and smart waters and were discussed from the perspective of emulsion resistance to the phase separation. The effect of salt type and concentration of salt and Fe3O4/Chitosan nanocomposites was investigated on the formation and stabilization of emulsions. Finally, the performance of smart water and nanofluid injection at the optimum concentrations were compared. According to the results obtained, 10000 ppm MgCl2 presented the best performance in the formation and stabilization of the emulsions as compared to the other concentrations. The synthesized nanocomposite also showed the best result at 0.05 wt%. Comparing the emulsification in smart water and nanofluid revealed that the emulsions developed during nanofluid injection were more stable and therefore led to a higher oil recovery factor.