Ceramic Membrane Made from Clay and Kaolin with a Mixture of Coconut Shell Activated Charcoal as a Groundwater Filter

Bambang Yulianto; Kristanto Wahyudi; Elih Sudiapermana; Asep Saepudin

doi:10.21771/jrtppi.2024.v15.no1.p10-14

Authors

Bambang Yulianto Politeknik Kesehatan Kemenkes Bandung, Indonesia
Kristanto Wahyudi Balai Besar Keramik Bandung, Indonesia
Elih Sudiapermana Universitas Pendidikan Indonesia, Indonesia
Asep Saepudin Universitas Pendidikan Indonesia, Indonesia

DOI:

https://doi.org/10.21771/jrtppi.2024.v15.no1.p10-14

Keywords:

Ceramic Membranes, Coconut Shell Activated Charcoal, Cleanwater, Fe, Mn

Abstract

Groundwater if the quality is not good if consumed will have an impact on health. The causes of poor groundwater quality include the value of Fe and Mn levels that exceed the established quality standards. Many methods can be done to overcome the quality of groundwater caused by high Fe and Mn levels, one of which is to use a ceramic membrane made from clay and kaolin with a variation of the coconut shell activated charcoal mixture in the composition of the ceramic membrane by 5%. 10% and 15%. The goal is to determine the effect of ceramic membranes with continuous flow systems on reducing content in clean water. Results showed that the percentage of decrease in Fe and Mn content produced by variations in the composition of coconut shell activated charcoal of 0%, 5%, 10%, and 15% was, respectively for average Fe levels of 15.85%, 69.44%, 75.02%, and 80.83%, and for average Mn levels of 0.00%, 5.71%, 10.00%, and 18.67%. The best variation in the composition of coconut shell-activated charcoal in clay and kaolin-based ceramic membranes in reducing Fe and Mn content in clean water to meet the quality standards of coconut shell-activated charcoal composition by 15%. It is expected that this activity can be used as a basis for further development in groundwater treatment using ceramic membranes made from clay and kaolin with the addition of coconut shell-activated charcoal composition.

References

Abdullayev, A., Bekheet, M. F., Hanaor, D. A. H., & Gurlo, A. (2019). Materials and Applications for Low-Cost Ceramic Membranes. Membranes, 9(9). https://doi.org/10.3390/membranes9090105

Ciora, R. J., & Liu, P. K. T. (2003). Ceramic Membranes for Environmental Related Applications. Fluid/Particle Separation Journal, 15(1), 51–60.

Darmayanti, L., Putri, M., & HS, E. (2022). Membran Keramik Berbahan Dasar Tanah Liat dan Fly Ash untuk Penyisihan Warna dan Zat Organik pada Air Gambut. Jurnal Rekayasa Sipil Dan Lingkungan. Jurnal Rekayasa Sipil Dan Lingkungan. Retrieved from https://doi.org/10.19184/jrsl.v6i1.28173

Kurniawan, M., Budi, A. S., & Susilo, A. B. (2014). Pembuatan Membran Keramik Berpori Berbasis Clay Dengan Variasi Zeolit Dan Penambahan Arang Aktif Tempurung Kelapa Serta Polivinyl Alcohol. Jakarta.

Manohar. (2012). Development and Characterization of Ceramic Membrane. International Journal of Modern Engineering Research (IJMER), 2, 1492–1506.

Meidinariasty, A., Zamhari, M., Septian, D., & Novianita. (2019). UJI KINERJA MEMBRAN MIKROFILTRASI DAN REVERSE OSMOSIS PADA PROSES PENGOLAHAN AIR RESERVOIR MENJADI AIR MINUM ISI ULANG. Jurnal Kinetika Politeknik Negeri Sriwijaya, 10(03), 35–41.

Nainggolan, T. (2008). No Title. Universitas Sumatera Utara. Retrieved from http://repositori.usu.ac.id/handle/123456789/36207

Nevyana, F. (2019). No TitleReduksi Kadar mangan (Mn) pada Air Tanah di Sekitar Wilayah Porong Menggunakan Manganase Greensand dalam Kolom Kontinyu. Universitas Islan Negeri Sunan Ampel.

Pambayun, G. S., Yulianto, R. Y. E., Rachimoellah, M., & Putri, E. M. M. (2013). PEMBUATAN KARBON AKTIF DARI ARANG TEMPURUNG KELAPA DENGAN AKTIVATOR ZnCl2 DAN Na2CO3 SEBAGAI ADSORBEN UNTUK MENGURANGI KADAR FENOL DALAM AIR LIMBAH. JURNAL TEKNIK POMITS, 2(1).

Sebayang, P., Muljadi, & Tetuko, A. P. (2009). PEMBUATAN BAHAN FILTER KERAMIK BERPORI BERBASIS ZEOLIT ALAM DAN ARANG SEKAM PADI. Teknologi Indonesia, 32(2), 99–105.

Siagian, H., & Hutabalian, M. (2012). STUDI PEMBUATAN KERAMIK BERPORI BERBASIS CLAY DAN KAOLIN ALAM DENGAN ADITIF ABU SEKAM PADI. Jurnal Saintika.

Wenten, I. G., & Kresnowati, B. (2020). Development of Membrane Technology in Indonesia : Prospects and Challenges. Bandung.