Rapid Lava Sand Filtration for Decentralized Produced Water Treatment System in Old Oil Well Wonocolo

https://doi.org/10.22146/jcef.43760

Ekha Yogafanny(1*), Ayu Utami(2), Kristiati E. A.(3), Wibiana W. Nandari(4)

(1) Universitas Pembangunan Nasional Veteran Yogyakarta
(2) Universitas Pembangunan Nasional Veteran Yogyakarta
(3) Universitas Pembangunan Nasional Veteran Yogyakarta
(4) Universitas Pembangunan Nasional Veteran Yogyakarta
(*) Corresponding Author

Abstract


The Cepu Block Oil Field has been traditionally extracted since 2008 by the local community in Wonocolo. The oil well-produced gas and fluids consisted of crude oil and produced water. This oil production activity discharges high amounts of produced water. The fluids have been settled down in the sedimentation tank to gain the crude oil optimally. The remaining fluid called produced water has been discharged to the surface towards the river without any further treatment.  This activity led to the deterioration of environmental quality. This study aimed to analyze the performance of produced water treatment by rapid sand filtration by measuring the degree of turbidity removal under the specific condition on a laboratory scale using lava sand. The sedimentation was conducted in 3 hours of retention time following the real field condition of the oil production process by community in one sample well. The rapid sand filtration was conducted by a fixed bed column method with 0.2 cm of grain size. The sedimentation process followed by the rapid sand filtration in produced water treatment yielded the high efficiency of turbidity removal reaching 98.65 %. The rapid sand filter also worked excellently in turbidity removal attaining 96.48 % of efficiency. These results confirmed that the sedimentation already done by the community followed by the rapid sand filtration is promising decentralized technology to be applied in a remote area such as Old Oil Wells Wonocolo regarding turbidity removal.


Keywords


Produced Water; Decentralized System; Rapid Sand Filtration

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References

Akdeniz, Y. (1999) Cation Exhange in Zeolites, Structure Modification ny Using a Microwave Turkey. Izmir Institute of Technology.

Amponsah, R. and Opei, F. K. (2014) ‘Ghana’s downstream petroleum sector: An assessment of key supply chain challenges and prospects for growth’, International Journal of Petroleum and Oil Exploration Research, 1(1), pp. 1–7.

Arthur, J. D., Langhus, B. G. and Patel, C. (2005) ‘Technical summary of oil & gas produced water treatment technologies’, All Consulting, LLC, Tulsa, OK.

Asmadi, K. and Kasjono, H. S. (2011) ‘Teknologi Pengolahan Air Minum’, Gosyen Publishing. Pontianak, Hal, 11, pp. 25–27.

Fakhru’l-Razi, A. et al. (2009) ‘Review of technologies for oil and gas produced water treatment’, Journal of hazardous materials. Elsevier, 170(2–3), pp. 530–551.

Hani, M. et al. (2018) ‘Effect of Operational Conditions on Performance of Deep sand Filter in Turbidity Removal’, Trends in Technical and Scientific Research, 2(5), pp. 555–597.

Igunnu, E. T. and Chen, G. Z. (2012) ‘Produced water treatment technologies’, International Journal of Low-Carbon Technologies. Oxford University Press, 9(3), pp. 157–177.

Jati, K. P. (2013) ‘Persepsi Masyarakat Penambang Tradisional Terhadap Sumber Daya Minyak Bumi Di Kawasan Cepu’, Geo-Image, 2(2).

Jiménez, S. et al. (2018) ‘State of the art of produced water treatment’, Chemosphere. Elsevier, 192, pp. 186–208.

Kristiati, M. (2010) Minyak Bumi : Eksplorasi, Eksploitasi dan Produksi. Yogyakarta: PT. Citra Aji Pratama.

Metcalf and Eddy (2003) Wastewater engineering; treatment and reuse. McGraw-Hill.

Schultz, C. R. (1990) ‘Water filtration technologies for developing countries’, Environmental Sanitation Review, 46, pp. 37–78.

Schulz, C. R. et al. (1992) ‘Surface water treatment for communities in developing countries’. Intermediate Technology Publications.

Yogafanny, E., Fuchs, S. and Obst, U. (2014) ‘Study of slow sand filtration in removing total coliforms and E. Coli’, Jurnal Sains dan Teknologi Lingkungan. Islamic University of Indonesia, 6(2), pp. 107–116.

Yogafanny, E. and Maryono, A. (2011) Evaluating Bacteria Removal Potential by Slow Sand Filtration: Effects of Rhine and Lava Sand and Operation Mode. [Yogyakarta]: Universitas Gadjah Mada.

Zaharia, C. (2017) ‘Decentralized wastewater treatment systems: Efficiency and its estimated impact against onsite natural water pollution status. A Romanian case study’, Process S



DOI: https://doi.org/10.22146/jcef.43760

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