PERANCANGAN MESIN PENGOLAH AIR BERSIH BERGERAK DENGAN MENGGUNAKAN SISTIM MODULAR UNTUK PENANGGULANGAN KEADAAN DARURAT AIR

  • Yuliar Yasin Erlangga Politeknik Manufaktur Negeri Bandung
  • Heri Setiawan Politeknik Manufaktur Negeri Bandung
Keywords: compact mobile water treatment, up-flow filtering process

Abstract

Water Treatment with a modular / mobile (compact mobile) water treatment system is the development of a water upflow system developed by BPPT with the addition and improvement of process functions in an effort to optimize the raw water treatment process into clean water. The development carried out in this research is to change the form from a fixed processing installation which is usually in the form of civil work into modular sub-function / mobile (compact mobile) that size / dimension is not too big (compact design). The advantages that can be obtained from the system especially in terms of handling during processing and in terms of spare parts supply so that the expected time of repair in the event of damage to the water treatment machine is very short and also the size / dimensions of this device is small enough (compact) so it is easy to transfer between locations for emergency water condition. At the end of this study after going through the design process according to VDI 2222 and has been assessed based on several aspects, there’ll be a prototype modular mobile water treatment with a processing capacity of 1 M² per hour with a design value of 92%. The renewable aspect studied is the modular mobile water treatment design itself, the determination and selection of solutions from the sub-functional part and how the sub-functions of the parts are tied to the framework so that the installation becomes compact to serve as mobile water treatment.

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References

[1] Anonim. Water Chemistry & Treatment. http://www.water-chemistry.in . (19 Juli 2011).
[2] Departemen Kesehatan RI. Keputusan Menteri Kesehatan RI Nomor 907/MENKES/ SK/VII/2002 tentang syarat-syarat dan pengawasan kualitas air minum. Jakarta: Departemen Kesehatan RI, 2002.
[3] H. Effendi. Telaah kualitas Air bagi Pengelolaan Sumber Daya dan Lingkungan Perairan. Yogyakarta: Kanisius, 2003
[4] A. Herlambang. “Teknologi Penyediaan Air Minum Untuk Keadaan Tanggap Darurat”. Jurnal Air Indonesia, Vol.6, No.1, 2010.
[5] R.H. Indriatmoko dan W. Widayat. “Penyediaan Air Minum Pada Situasi Tanggap Darurat Bencana Alam”.Jurnal Air Indonesia, Vol.3,No.1, 2007.
[6] Ministry of environment and forests.Status Of Water Treatment Plans In India. http://www.cpcb.nic.in. (3 Agustus 2011).
[7] P. N. Raharjo. “Aplikasi Teknologi Pengadaan Air Bersih di Empat Desa Tertinggal di Bengkulu Selatan”. Jurnal Air Indonesia, Vol.3, No.1, 2007.
[8] Said, Nusa Idaman, Indriatmoko, Robertus Haryoto, Raharjo, P. Nugro, dan Herlambang, Arie. “Aplikasi teknologi pengolahan air sederhana untuk masyarakat pedesaan”. Jurnal Air Indonesia, Vol.1, No.2, 2005.
Published
2018-01-02
How to Cite
Erlangga, Y., & Setiawan, H. (2018). PERANCANGAN MESIN PENGOLAH AIR BERSIH BERGERAK DENGAN MENGGUNAKAN SISTIM MODULAR UNTUK PENANGGULANGAN KEADAAN DARURAT AIR. Journalmachine, 4(1), 21-28. Retrieved from https://journalmachine.ubb.ac.id/index.php/jurnalmesin/article/view/43