Developing New Natural Surfactant from Date Seeds for Different Field Applications

Noah Al Otaibi; Moustafa Aly; Taha Moawad

doi:10.4028/p-ONoxF5

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The Influence of Sn Addition on the Magnetocaloric Effects, Magnetic and Mechanical Properties of Fe₂P-Type Mn-Fe-P-Si Compounds
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Preparation and Characterization of Black Phosphene/Titanium Dioxide Composite Nanomaterials by Liquid-Stripping and Solution Mixing Method
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Developing New Natural Surfactant from Date Seeds for Different Field Applications
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HomeMaterials Science ForumMaterials Science Forum Vol. 1125Developing New Natural Surfactant from Date Seeds...

Developing New Natural Surfactant from Date Seeds for Different Field Applications

Abstract:

The increase in using natural surfactants for enhanced oil recovery (EOR) purposes in recent years is mainly attributed to the widespread global awareness of the environmental effects the oil and gas industry causes. In accordance with KSA Vision 2030 and the corresponding global direction, the purpose of this study is to discover a cost effective, readily available, environmentally friendly, and locally sourced surfactant. This surfactant will help reduce the interfacial tension (IFT) between reservoir liquids to enhance the reservoir’s productivity and increase its ultimate recovery. In this study, date seeds have been chosen as the green surfactant source due to the abundance of such seeds. Al-Khalas, which is a well-known palm tree that grows in Qassim, Al-Kharj, and Al-Ahsa provinces in KSA was chosen. Properties such as surface tension (ST), IFT, pH, and density were measured to evaluate the effectiveness of date seeds as a natural surfactant. ST results showed a reduction from 72 mN/m (of distilled water) to 43 mN/m using the new surfactant in formation water at 10 wt% comprising a 40% reduction. Moreover, IFT of the new surfactant with Saudi medium oil (26 API) was 10 mN/m compared to 18 mN/m of a formation water-oil system which represents a 49% reduction in interfacial tension. Overall, the novel surfactant studied in this research shows great promise in being an effective EOR agent in addition to eliminating the negative impacts of regular surfactants on the environment.

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Periodical:

Materials Science Forum (Volume 1125)

Pages:

53-63

DOI:

https://doi.org/10.4028/p-ONoxF5

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Online since:

September 2024

Authors:

Noah Al Otaibi, Moustafa Aly, Taha Moawad*

Keywords:

Crude Oil, Date Seeds, Enhanced Oil Recovery, Green Surfactant

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References

[1] Afolabi RO, Oluyemi GF, Officer S, Ugwu JO. Hydrophobically associating polymers for enhanced oil recovery – Part A: A review on the effects of some key reservoir conditions. J Pet Sci Eng. 2019 Sep;180:681–98.