November 22, 2024
Shahriar Osfouri

Shahriar Osfouri

Academic Rank: Professor
Address:
Degree: Ph.D in Chemical Engineering
Phone: 88019360
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title Reduction of Condensate Trapping by CaCO3 Nanofluid Injection: Experimental Study in Sandpack
Type Article
Keywords
Trapping; Initial saturation; Residual saturation; Chemical enhance oil; recovery; Nanoflooding
Journal Journal of Oil, Gas and Petrochemical Technology
DOI 10.22034/JOPGT.2022.281585.1095
Researchers Reza Azin (Second researcher) , Shahriar Osfouri (Third researcher)

Abstract

In the gas condensate reservoirs, the trapping phenomenon is caused by the capillary force of the rocks. The force that leads to remaining liquids in pores. There are various methods to eliminate the condensate or reduce it to a minimum value. Many researchers attempt to recover more oil commercially and delay leaving gas condensate fields by innovating some new methods such as nanotechnology. The main goal of this study is the reduction of the trapped condensate by applying CaCO3 nanofluid injection (the natural CaCO3 (Bio-Ca) nanoparticles containing chitin) in the sand pack. This is known as an economical and eco-friendly nanoparticle in tertiary enhanced oil recovery method. Finally, the displacement efficiency (ED) and recovery factor (Re) of this nanoparticle was 5.23% and 69.29%, respectively. The optimum values of the initial condensate saturation (Soi) and the flow rate of nanofluid injection (qNF) are 30 and 5cc/min, respectively. These values are the minimum Soi and qNF, which considered in this study.