Relation between Conventional and Starch-Assisted ASP Injection and Impact of Crystallinity on Flood Formation-Reference-Cited by-同舟云学术

Relation between Conventional and Starch-Assisted ASP Injection and Impact of Crystallinity on Flood Formation

Published:2023-09-18 Issue:18 Volume:28 Page:6685
ISSN:1420-3049
Container-title:Molecules
language:en
Short-container-title:Molecules

Author:

Al-Jaber Hasanain A.¹²^ORCID,Arsad Agus¹^ORCID,Bandyopadhyay Sulalit³^ORCID,Jaafar Mohd Zaidi⁴,Tahir Muhammad⁵,Nuhma Mustafa Jawad⁶,Abdulmunem Abdulmunem R.⁷^ORCID,Abdulfatah Mohammad Yasin⁸,Alias Hajar⁴

Affiliation:

1. UTM-MPRC Institute for Oil and Gas, Faculty of Engineering, Universiti Teknologi Malaysia, UTM, Skudai 81310, Johor, Malaysia

2. Department of Chemical Industries Technologies, Southern Technical University, Zubair, Basrah 61006, Iraq

3. Department of Chemical Engineering, Norwegian University of Science and Technology, Høgskoleringen 1, 7491 Trondheim, Norway

4. Department of Chemical Engineering, School of Chemical and Energy Engineering, Universiti Teknologi Malaysia, Johor Bahru 81310, Johor, Malaysia

5. Chemical and Petroleum Engineering Department, United Arab Emirates University (UAEU), Al Ain P.O. Box 15551, United Arab Emirates

6. Chemical Engineering Department, College of Engineering, University of Al-Qadisiyah, Al-Diwaniyah P.O. Box 88, Iraq

7. Electromechanical Engineering Department, University of Technology-Iraq, Baghdad 10066, Iraq

8. Exploration and Development Department, PT SPR Langgak, Jakarta 12550, Indonesia

Abstract

Alkaline–surfactant–polymer (ASP) flooding, a recognized method for oil recovery, encounters limited use due to its expense. In addition, ASP’s best composition and injection sequence still remains uncertain today. This study explores conventional ASP flooding using PT SPR Langgak’s special surfactants, simulating Langgak oilfield conditions in Sumatra, Indonesia. By comparing the outcomes of this flooding technique with that of starch-assisted ASP performed in another study, the benefits of adding starch nanoparticles to flooding are evident. Nano-starch ASP increased oil recovery by 18.37%, 10.76%, and 10.37% for the three configurations investigated in this study. Water flooding preceded ASP flooding, and flooding operations were carried out at 60 °C. This study employed sodium hydroxide (NaOH), sodium carbonate (Na2CO3), and specialized surfactants from PT SPR. The adopted polymer is solely hydrolyzed polyacrylamide (HPAM) at 2000 ppm. Starch nanoparticles underwent comprehensive characterization and focused more on charge stability. Purple yam nanoparticles (PYNPs) exhibited remarkable stability at −36.33 mV, unlike cassava starch nanoparticles (CSNPs’) at −10.68 mV and HPAM’s at −27.13 mV. Surface properties affect interactions with fluids and rocks. Crystallinity, a crucial characterization, was assessed using Origin software 2019b. CSNPs showed 24.15% crystallinity, surpassing PYNPs’ 20.68%. Higher crystallinity benefits CSNPs’ thermal stability. The amorphous behavior found in PYNPs makes them less suitable if applied in harsh reservoirs. This research correlated with prior findings, reinforcing starch nanoparticles’ role in enhancing oil recovery. In summary, this study highlighted conventional ASP flooding using HPAM as the sole polymer and compared it with three formations that used two starch nanoparticles included with HPAM, assessing their impact on charge stability, crystallinity, and recovery rate to emphasize their importance in the oil recovery industry. Starch nanoparticles’ benefits and limitations guided further investigation in this study.

Funder

School of Chemical and Energy Engineering, Universiti Teknologi, Malaysia

Publisher

MDPI AG

Subject

Chemistry (miscellaneous),Analytical Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Molecular Medicine,Drug Discovery,Pharmaceutical Science

Link

https://www.mdpi.com/1420-3049/28/18/6685/pdf

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