Perancangan Bangunan Menara Air pada Sistem Sea Water Reverse Osmosis

Frenki Imanto; Auliana Wilujeng; Misbakhul Fatah; Abdul Hamid; Septian Wijaya

doi:10.52158/jamere.v4i2.926

Frenki Imanto Politeknik Pelayaran Surabaya
Auliana Wilujeng Politeknik Negeri Madura
Misbakhul Fatah Politeknik Negeri Madura
Abdul Hamid Politeknik Negeri Madura
Septian Wijaya Politeknik Negeri Madura

DOI: https://doi.org/10.52158/jamere.v4i2.926
I will put the dimension here

Keywords: Water tower building, Frame, sea water reverse osmosis

Abstract

Water tower buildings using the SWRO (Sea Water Reverse Osmosis) system are needed as part of processing sea water into clean water. So that it can be used by the local community to meet their daily needs. In this research we designed a water building in the SWRO system by analyzing it using the FEM method. The upper frame is made from gray cast ATM A48 material with grade 25 with a C channel type profile measuring 80x8 mm. Meanwhile, the supporting frame is made of gray cast ATM A48 material with grade 25 with an L type profile with dimensions of 40x40x3 mm and 30x30x3 mm. The largest stress load stimulation was obtained at 415.8 MPa on the upper frame, which indicates it is in the safe category. Meanwhile, the largest displacement value was 60.46 mm for the upper frame. This shows that the design of water structures in the SWRO system in this research can be classified as safe.

References

[1] Jack, L. B., & Swaffield, J. A. (2009). Embedding sustainability in the design of water supply and drainage systems for buildings. Renewable Energy, 34(9), 2061–2066. https://doi.org/10.1016/j.renene.2009.02.009
[2] Agthen, Y. A., Windah, R., & Pandaleke, R. (2019). Analisa Rangka Batang Struktur Menara Tangki Air Akibat Gempa. Jurnal Sipil Statik, 7(8), 1027–1038
[3] Poluan, D. S., Pandaleke, R., & Dapas, S. O. (2019). Respons Dinamik Struktur Rangka Baja Menara Air dengan Variasi Elemen Pengaku Lateral. Jurnal Sipil Statik, 7(3), 367–378.
[4] Fadila, S. (2014). Analisa Desain Struktur Dan Pondasi Menara Pemancar Tipe “ Self Supporting Tower ” Di Kota Palembang. Teknik Sipil Dan Lingkungan, 2(4), 682–691.
[5] Ragetisvara, A. A., & Titah, H. S. (2021). Studi Kemampuan Desalinasi Air Laut Menggunakan Sistem Sea Water Reverse Osmosis (SWRO) pada Kapal Pesiar. Jurnal Teknik ITS, 10(2). https://doi.org/10.12962/j23373539.v10i2.63933
[6] Yagturi, M., & Hartati, R. (1970). Identifikasi Kerusakan Mesin Sea Water Reverse Osmosis (Swro) dengan Fault Tree Analysis (Fta) Di Pt. Pln (Persero) Upk Nagan Raya. Journal Of Social Research, 1(9), 972–981. https://doi.org/10.55324/josr.v1i9.154
[7] Waluyo, S. (2011). Pengenalan Ababil: Program Finite Element Analysis (FEA) 3-Dimensi Untuk Struktur Rangka-Batang. Dinamika Rekayasa, 7(1), 9-13.
[8] Sri, T., Asih, N., & Waluya, S. B. (2018). Perbandingan Finite Difference Method dan Finite Element Method dalam Mencari Solusi Persamaan Diferensial Parsial. Prosiding Seminar Nasional Matematika, 1, 885–888.
[9] Awwaluddin, M. (2019). Analisa Kekuatan Rangka Sepeda Listrik Menggunakan Software SolidWorks. Piston: Journal of Technical Engineering, 3(1), 5–16. http://openjournal.unpam.ac.id/index.php/Piston/article/view/7486
[10] Faujiyah, F. (2021). Perancangan Pengembangan Rangka Pada Mesin Pengaduk Adonan Pangsit Labu. Jurnal TEDC, 15(2). http://ejournal.poltektedc.ac.id/index.php/tedc/article/view/492%0Ahttps://ejournal.poltektedc.ac.id/index.php/tedc/article/download/492/361
[11] Restu Pahlawan, A., Hanifi, R., & Santosa, A. (2021). Analisis Perancangan Frame Gokart dari Pengaruh Pembebanan dengan Menggunakan CAD Solidworks 2016. Jurnal METTEK, 7(1), 1. https://doi.org/10.24843/mettek.2021.v07.i01.p01

Design of a Water Tower Building in a Sea Water Reverse Osmosis System

Abstract

References

Most read articles by the same author(s)

JAMERE
Journal of Applied Mechanical Engineering and Renewable Energy