Effect of Types and Depths of Media Filter to Reducing Turbidity Concentration

Authors

  • Fikry Ardianto Universitas Pembangunan Nasional ”Veteran” Jawa Timur
  • Euis Nurul H Universitas Pembangunan Nasional ”Veteran” Jawa Timur
  • Tuhu Agung Universitas Pembangunan Nasional ”Veteran” Jawa Timur
  • Aussie Amalia Universitas Pembangunan Nasional ”Veteran” Jawa Timur

DOI:

https://doi.org/10.55123/insologi.v2i4.2565

Keywords:

Sand Filter, Silica Sand, Zeolite Sand

Abstract

Rapid sand filter is used to decrease the turbidity consentration. This research purpose is find the comparation of variation media to reduced turbidity from Wonokromo River. Silica and zeolite are used to be the media of rapid sand filter with effective sizes of 0,20 mm and 1,40 mm. Variation that used in this research are rapid sand filter single media and dual media with depth of 60 and 80 cm in each variation. Rapid sand filter dual media uses silica and zeolite with the comparison of 50 : 50. The result showed that every variation has more than 50% removal of turbidity. Rapid sand filter single media with 60 cm of depth reach 84,35% of turbidity removal and with 80 cm of depth reach 92,22% of turbidity removal. Rapid sand filter dual media (silica and zeolite) with 60 cm of depth reach 73,48% and with 80 cm of depth reach 87,77%. Result showed that rapid sand filter single media with 80 cm of depth reach the highest removal in every variation. It’s concluded that the media depth and sizes effect the effictivity of turbidity removal.

Downloads

Download data is not yet available.

References

C.Y.C. Chu & R. R. Yu. (2002). Population Dynamics and the Decline in Biodiversity : A Survey of the Literature Author ( s ): C . Y . C . Chu and R . R . Yu Source : Population and Development Review , Vol . 28 , Supplement : Population and Environment : Methods of Analysis ( 2002 ), p. 28(2002), 126–143.

Denisa Nurmalia, Shinta Elystia, A. S. (2019). Pengaruh Diameter Pasir Silika dan Zeolit pada Saringan Pasir Lambat dalam Menurunkan Parameter Kekeruhan Air Sungai Siak. Jurnal Online Mahasiswa Fakultas Teknik, 6, 1–8. https://jom.unri.ac.id/index.php/JOMFTEKNIK/article/view/24486

Duran-Ros, M., Puig-Bargués, J., Arbat, G., Barragán, J., & Cartagena, F. R. de. (2009). Effect of filter, emitter and location on clogging when using effluents. Agricultural Water Management, 96(1), 67–79. https://doi.org/10.1016/j.agwat.2008.06.005

Letterman, R. D. (1999). Water Quality and Treatment. McGraw Hill Education.

Maryani, D., Masduqi, A., Lingkungan, J. T., & Teknik, F. (2014). 6906-20535-1-Pb. 3(2), 1–6.

Mawaddati, I., Munfarida, I., & Hakim, A. (2021). Evaluasi Daya Tampung Beban Pencemaran Air Sungai Wonokromo (Kali Jagir) Kota Surabaya. Jurnal Teknik Lingkungan, 7(1), 33–43. http://jurnalsaintek.uinsby.ac.id/index.php/alard/index

Metcalf, & Eddy. (2014). Wastewater Engineering. McGraw Hill Education.

Pamularsih, C., Choanji, D., & Widiasa, N. (2013). Penyisihan Kekeruhan Pada Sistem Pengolahan Air Sungai Tembalang Dengan Teknologi Rapid Sand Filter. Jurnal Teknologi Kimia Dan Industri, 2(4), 48–54. http://ejournal-s1.undip.ac.id/index.php/jtkiTelp/Fax:

Reza, R., & Singh, G. (2010). Assessment of Ground Water Quality Status by Using Water Quality Index Method in Orissa, India. World Applied Sciences Journal, 9(12), 1392–1397.

Selintung, M., & Syahrir, S. (2012). Studi Pengolahan Air Melalui Media Filter Pasir Kuarsa (Studi Kasus Sungai Malimpung). Hasil Penelitian Fakultas Teknik, 6(December), 978–979. https://doi.org/10.13140/RG.2.2.10247.83362

Sembiring, E., Fajar, M., & Handajani, M. (2021). Performance of rapid sand fìlter - single media to remove microplastics. Water Supply, 21(5), 2273–2284. https://doi.org/10.2166/ws.2021.060

Shammas, N. K., & Wang, L. K. (2016). Hydraulics, Distribution and Treatment. In Water Engineering.

Syahputra, B., Islam, U., Agung, S., Poedjiastoeti, H., Islam, U., & Agung, S. (2022). Bab-7 FILTRASI. August.

Sze, Y. S., Aris, A., Zaidi, N. S., & Bahrodin, M. B. (2021). Performance of Sand Filtration System with Different Sand Bed Depth for Polishing Wastewater Treatment. Journal of Environmental Treatment Techniques, 9(2), 451–456. https://doi.org/10.47277/jett/9(2)456

Wegelin, M. (1996). Surface Water Treatment by Roughing Filters : A Design, Construction and Opertaion Manual (p. 163). https://www.ircwash.org/resources/surface-water-treatment-roughing-filters-design-construction-and-operation-manual

Downloads

Published

2023-08-28

How to Cite

Fikry Ardianto, Euis Nurul H, Tuhu Agung, & Aussie Amalia. (2023). Effect of Types and Depths of Media Filter to Reducing Turbidity Concentration. INSOLOGI: Jurnal Sains Dan Teknologi, 2(4), 853–860. https://doi.org/10.55123/insologi.v2i4.2565