Development of ultralow interfacial tension lignosulfonate from kraft black liquor for enhanced oil recovery

Azis, Muhammad Mufti and Febrina, Fergie and Anindia, Ignesti and Darmawati, Galuh Almas and Fenyka, Desi Amalia and Purwono, Suryo and Rochmadi, - (2021) Development of ultralow interfacial tension lignosulfonate from kraft black liquor for enhanced oil recovery. Journal of Engineering and Technological Sciences, 53 (2). ISSN 23375779

[thumbnail of black liquor; EOR surfactant; formulation; IFT; lignin; sodium lingosulfonate.] Text (black liquor; EOR surfactant; formulation; IFT; lignin; sodium lingosulfonate.)
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Abstract

Indonesia aims to implement large-scale enhanced oil recovery (EOR) to increase the national oil production. Chemical EOR is a promising technology to boost the production of old reservoirs with the aid of surfactants and polymers. Thus, the production of low-cost EOR surfactants from local resources with acceptable performance is highly attractive. The objective of the present work was to demonstrate the development of low-cost lignosulfonate surfactant production from kraft black liquor (BL). First, lignin was isolated from black liquor using a novel CO2 bubbling technique, followed by addition of coagulants. Next, sodium lignosulfonate (SLS) was synthesized from the resulting lignin, followed by formulation of SLS with octanol and palm fatty acid distillate (PFAD) soap to obtain an ultralow interfacial tension (IFT) surfactant. The initial IFT value of the SLS solution was already high at 0.7 mN/m. After formulation, the composition SLS:PFAD soap:octanol = 70:22:8 (wt) improved the IFT value to 3.1 10-3 mN/m. An ultralow IFT in the range of 10-3 mN/m as achieved here fulfills the required IFT value for EOR surfactant. © 2021 Published by ITB Institute for Research and Community Services, ISSN: 2337-5779,.

Item Type: Article
Additional Information: Cited by: 1; All Open Access, Gold Open Access
Uncontrolled Keywords: black liquor; EOR surfactant; formulation; IFT; lignin; sodium lingosulfonate.
Subjects: T Technology > TP Chemical technology > Chemical engineering
Divisions: Faculty of Engineering > Chemistry Engineering Department
Depositing User: Sri JUNANDI
Date Deposited: 14 Oct 2024 08:23
Last Modified: 14 Oct 2024 08:23
URI: https://ir.lib.ugm.ac.id/id/eprint/5455

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