Seawater is one of the largest natural resources and abundant in Indonesia, which contains salt, metals and mycobacteria. Even though the amount is abundant, its utilization is still not widespread, such as to be used as clean water or drinking water. The use of adsorbents aims to adsorb impurities in the fluid. The adsorption column that is widely used is in the form of a fixed-bed column with messy stacked filling. This makes it difficult to clean and fill the adsorbent, besides the irregular pile of adsorbents will hinder the flow process of the purified fluid. The research product is a circulating portable adsorption column design consisting of 3 parts, namely: top distributor, packing bed, and bottom collector. The principle of the three parts is like a puzzle where the number of packing beds can be adjusted according to the purification needs. The three parts are connected with threads so that they can be disassembled as desired. It is hoped that this product can meet the needs of adsorption-based purification that is easy, inexpensive, and can be customized according to various types of adsorbents. The design of this product can be duplicated for other adsorption purification processes, such as purification of bioethanol, wastewater, and biodiesel.

Abdelgaied, M. (2017). PERFORMANCE OF A PYRAMID SOLAR STILL WITH V-CORRUGATED ABSORBERS PLATE: EXPERIMENTAL STUDY. Twentieth International Water Technology Conference-IWTC20.

Agus, I. Y. (2018). TEKNIK PENGOLAHAN AIRTANAH PAYAU MENJADI AIR MINUM DENGAN METODE ADSORPSI ZEOLIT DI DESA JANGKARAN, KECAMATAN TEMON, KABUPATEN KULONPROGO, DAERAH ISTIMEWA YOGYAKARTA. UNIVERSITAS PEMBANGUNAN NASIONAL" VETERAN" YOGYAKARTA.

Badriyah, L., Restuaji, I., & Luluk, L. (2020). Adsorpsi Salinitas Sumber Air Madura dengan Zeolit Alam Klinoptilolit Teraktivasi Basa. Jurnal Sintesis: Penelitian Sains, Terapan dan Analisisnya, 1(2).

Bimantio, M. P. (2017). Effect of Grain Size and Activation Time of Zeolite to Adsorption and Desorption of NH4OH and KCL As Model of Fertilizer-Zeolite Mix. Jurnal Konversi, 6(2), 20–27.

Bimantio, M. P., Oktavianty, H., & Widyasaputra, R. (2020). Perancangan Desain Portable Fixed-Bed Composite Adsorber Column sebagai Media Pemurnian Biodiesel dengan Sistem Packing bed. TEKNIK, 41(3), 253–260. https://doi.org/10.14710/teknik.v41n3.32661

Darmawansa, W. N., & Jati, D. R. (2014). Desalinasi Air Payau dengan Media Adsorben Zeolit di Daerah Pesisir Pantai Kecamatan Sungai Kunyit Kabupaten Mempawah. Jurnal Teknologi Lingkungan Lahan Basah, 2(1).

Iswadi, I. (2016). Rancang bangun alat pemurni air laut menjadi air minum menggunakan sistem piramida air (green house effect) bagi masyarakat pulau dan pesisir di kota Makassar. Jurnal Sains dan Pendidikan Fisika, 12(3), 300–310.

Krisdiarto, A. W., Ferhat, A., & Bimantio, M. P. (2020). Penyediaan Air Bagi Masyarakat Pesisir Terdampak Kekeringan dengan Teknologi Desalinasi Air Laut Sederhana. DIKEMAS (Jurnal Pengabdian Kepada Masyarakat), 4(2), 25–31. https://doi.org/10.32486/jd.v4i2.532

Nugraha, D. H., & Mahida, M. (2013). Kesiapan Masyarakat Menerapkan Teknologi Tepat Guna Pengolahan Air Minum (Studi Kasus: Pulau Palu’e, Nusa Tenggara Timur). Jurnal Sosial Ekonomi Pekerjaan Umum, 5(2).

Prastuti, O. P. (2017). Pengaruh Komposisi Air Laut dan Pasir Laut Sebagai Sumber Energi Listrik. Jurnal Teknik Kimia dan Lingkungan, 1(1), 35–41.

Rosari, T., Hadi, W., & Masduqi, A. (2014). Desalinasi Air Payau Menggunakan Energi Solar Dengan Parabolic Trough. Jurnal Purifikasi, 14(1), 55–64.

Wibowo, E., Rokhmat, M., Sutisna, Khairurrijal, & Abdullah, M. (2017). Reduction of seawater salinity by natural zeolite (Clinoptilolite): Adsorption isotherms, thermodynamics and kinetics. Desalination, 409, 146–156. https://doi.org/https://doi.org/10.1016/j.desal.2017.01.026

Wijayanto, D., & Sutanto. (2011). MODEL ALAT PENAWAR AIR TANAH TERINTRUSI AIR LAUT ( AIR PAYAU ) DENGAN PROSES ELEKTROKOAGULASI. Poli-Teknologi, 10(2), 171–180.