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Faruk Yakasai,Mohd Zaidi Jaafar,Sulalit Bandyopadhyay,Augustine Agi 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.93 No.-
Utilization of nanoparticles for enhanced oil recovery (EOR) has attracted great attention in recentdecades. However, various constraints influencefluid-fluid andfluid-rock interactions of nanofluids andsubsequently oil recovery. A comprehensive review of existing literatures on how to mitigate againstthese limits are presented in this study. Furthermore, nanofluid EOR mechanisms and various applicationparameters which may influence nanofluidflooding efficiency were discussed. Also, the basic steps forpreliminary investigation of nanomaterials for EOR, the challenges, gaps, and future trends associatedwith nanofluids reservoirfield applications were suggested. Field trials results have proven thatnanofluids can influence various EOR mechanisms.
Formulation of bionanomaterials: A review of particle design towards oil recovery applications
Augustine Agi,Radzuan Junin,Mohd Zaidi Jaafar,Mohd Akhmal Sidek,Faruk Yakasai,Afeez Gbadamosi,Jeffrey Oseh 한국공업화학회 2021 Journal of Industrial and Engineering Chemistry Vol.98 No.-
To minimize environmental impact and costs, bionanomaterials have been proffered. However, theirperformance hinges on material and intensification of synthesis methods. Herein, design ofbionanomaterials towards oil recovery applications are presented. Methods of synthesizing bionanomaterialswere discussed. Process intensification of synthesis methods was elucidated and basic drivingforce during synthesis were identified. Challenges prevalent during design and application ofbionanomaterials have opened new opportunities for research and are incorporated with proposedsolutions. In absence of Ostwald ripening, nucleation rate and growth processes can control size andshape of nanocrystal. Hence, designing bionanomaterials, nucleation rate should be determinedalongside supersaturation.
Augustine Agi,Radzuan Junin,Mohd Zaidi Jaafar,Mohd Akhmal Sidek,Faruk Yakasai,Afeez Gbadamosi,Jeffrey Oseh 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.110 No.-
Ultrasonic applications have proven to be successful in the laboratory and in the field. However, a reviewon the influence of ultrasound on enhanced oil recovery (EOR) mechanisms, is still lacking in the literature. Herein, the state-of-the-art review on the impact of ultrasound on EOR mechanisms is presented. Ultrasound oil recovery mechanisms were identified. Main factors affecting oil recovery mechanismswere elucidated. The effects of ultrasound on EOR mechanisms were clarified. Laboratory and field applicationsof ultrasound were reviewed. Lastly, hitches encountered in ultrasound EOR have opened newavenues for research and solutions proposed. Experimental findings demonstrate that oil recovery byultrasound ranges from 5-82% original oil in place, with extra oil recovery occurring between 10–20 minutesof ultrasonication. Oilfield results indicate that oil production increased in the range of 26.5–91%,water cut decreased by 4–28%, the success rate was between 75–90%, and the effect can last for 3–24 months.