Lignin adsorption in sandpacks during horizontal flow using UV–Vis spectrometry as a quantification tool

Lignin adsorption in sandpacks during horizontal flow using UV–Vis spectrometry as a quantification tool

Dwindling petroleum resources is related to the challenges facing oil exploitation from the reservoir and encouraged finding alternatives to traditional oil production projects. A new trend of using biomaterial to facilitate oil production showed to be promising. Among the biomaterials, lignin bioma...

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Bibliographic Details
Published in:Arabian journal of geosciences Vol. 15; no. 6
Main Authors: Abbas, Azza Hashim, Moslemizadeh, Aghil, Sulaiman, Wan Rosli Wan, Jaafar, Mohd Zaidi, Pourafshary, Peyman
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-03-2022
Springer Nature B.V
Subjects:
Adsorption
Biomaterials
Biomedical materials
Biopolymers
Chemical analysis
Clay
Clay minerals
Earth and Environmental Science
Earth science
Earth Sciences
Enhanced oil recovery
Exploitation
Flow characteristics
Hydrophobicity
Illite
Illites
Kaolinite
Lignin
Montmorillonite
Montmorillonites
Oil
Oil and gas production
Oil exploration
Oil production
Oil recovery
Oil reservoirs
Original Paper
Petroleum
Petroleum production
Porous media
Quartz
Reservoirs
Salinity
Salinity effects
Seawater
Spectrometry
Surface chemistry
Surface properties
Ultraviolet radiation
Water analysis
Lignin
Adsorption
Seawater salinity
Clay minerals
Biomass
Concentration
Quartz
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Summary:Dwindling petroleum resources is related to the challenges facing oil exploitation from the reservoir and encouraged finding alternatives to traditional oil production projects. A new trend of using biomaterial to facilitate oil production showed to be promising. Among the biomaterials, lignin biomass has been introduced as a beneficial biopolymer in the chemical enhanced oil recovery (CEOR) applications. However, the utilization of lignin materials for oil reservoir treatment requires a deeper understanding of the lignin behavior while flowing in porous media. The current study aims at assessing the lignin’s flow characteristic in different mineralogical surface characteristics. The study emphasizes lignin concentration and adsorption as the critical factors in CEOR. A controlled sandpack column with 95% quartz and 5% clay mineral was fabricated to evaluate the lignin concentration and the adsorption at high salinity conditions. UV–Vis spectrometer was implemented as a quantification tool to analyze the effluent of lignin. According to the results, lignin concentration was observed to be decreased considerably during the first injected pore volume. The lignin concentration dropped by 22–88% from its initial values. The highest cumulative adsorption rate was found to be at 40 mg/g at the kaolinite surface. The lignin adsorption in the presence of illite and Montmorillonite was noticed to be similar. The results indicated the proportional relation between lignin concentration and the adsorption amount during the flow. As the study conducted on seawater salinity, the lignin adsorption rate on quartz and clay mineral surface was significantly high, despite the hydrophobicity of the clay surfaces.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-022-09770-4