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Analisis Pengelolahan Air Limbah Domestik

*Rizka Arbaningrum  -  Universitas Pembangunan Jaya, Indonesia

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Abstract
Sewage treatment plant (STP) functions is to treat household, community and industrial waste has been known for a long time. Most of the STPs are permanently installed , usually the wastewater first flows through the biological treatment stage and then ends at the retreatment stage. XYZ University is one of the universities in South Tangerang. Currently, the STP of XYZ University has not been operating optimally. This research function is to design the STP for tower A Universitas XYZ so that it meets the requirements of the Minister of Environment Regulation No. 68 2016 regarding the quality standards of domestic wastewater. Domestic liquid waste generated by Tower A, XYZ University is 234,576 m3 / day. To manage the waste, an aerobic anaerobic wastewater treatment plant is planned which consists of equalization, pre-settling tanks, anaerobic tanks and aerobic tanks equipped with filter media, and final settling tanks. From the STP management, it is estimated that the quality of domestic wastewater will be BOD5 5,515 mg / l, COD 17,136 mg / l, and TSS 0.648 mg / l.

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  1. Peraturan Menteri Lingkungan Hidup dan Kehutanan Republik Indonesia nomor Menlhk/Setjen/Kum, 1(2), 2017 Tentang Perubahan Atas Peraturan Menteri Lingkungan Hidup dan Kehutanan nomor p.12/menlhk-ii/2015 Tentang Pembangunan Hutan Tanaman Industri
  2. Ahmad, M. (2019). REDESAIN SYSTEM PENGOLAHAN AIR LIMBAH PADA SEWAGE TREATMENT PLANT (STP) UNTUK PENINGKATAN KUALITAS AIR LIMBAH DI CENTRAL PARK MALL JAKARTA (Doctoral dissertation, http://unugha. ac. id)
  3. Agusnar, H. (2008). Analisa Pencemaran dan Pengendalian Pencemaran
  4. Amri, K., & Wesen, P. (2015). Pengolahan air limbah domestik menggunakan biofilter anaerob bermedia plastik (bioball). Jurnal Ilmiah Teknik Lingkungan, 7(2), 55-66
  5. Anandita, S. H. (2019). PERENCANAAN INSTALASI PENGOLAHAN AIR LIMBAH (IPAL) PADA RUMAH PEMOTONGAN AYAM (RPA) Y DI WILAYAH SLEMAN, YOGYAKARTA (Doctoral dissertation, Universitas Islam Indonesia)
  6. Arismunandar, W., & Tsuda, K. (1993). Motor diesel putaran tinggi. Pradnya Paramita, Indonesia: Jakarta
  7. Badan Standarisasi Nasional. 2005. SNI 03-7065-2005. Tata cara perencanaan sistem plambing
  8. Budiatma, A., & Sholichin, M. (2019). Perencanaan Instalasi Pengolahan Air Limbah (IPAL) Terpusat di Universitas Brawijaya. Jurnal Mahasiswa Jurusan Teknik Pengairan, 2(2), 41
  9. Dwiyono. (2016). PERENCANAAN INSTALASI PENGOLAHAN AIR LIMBAH DOMESTIK SYSTEM LUMPUR AKTIF DI GEDUNG TRANS MART. Diunduh dari http://teknik.usni.ac.id/jurnal/yusriani.pdf, pada tanggal 6 Agustus 2020
  10. Eviati, S., & Sulaeman, M. (2009). Analisis Kimia Tanah, Tanaman, Air, dan Pupuk. Balai Penelitian Tanah. Bogor, 246
  11. Gumilar, G. (2011). Perencanaan Plumbing Air Bersih dan Air Kotor (Studi Kasus Gedung Kantor Administrasi Bandara Adi Soemarmo Surakarta)
  12. Hartaja, D. R. K., & Setiadi, I. (2016). DESIGN PLANNING WASTEWATER TREATMENT PLANT OF NATA DE COCO INDUSTRY WITH THE ACTIVATED SLUDGE PROCESS. Jurnal Rekayasa Lingkungan, 9(2)
  13. Juwana, J. S. 2004. Panduan Sistem Bangunan Tinggi. Erlangga:. Jakarta
  14. Metcalf, L. (2003). Wastewater engineering: treatment and reuse. Metcalf & Eddy Inc
  15. Mohammadi, H., Sabzali, A., Gholami, M., Dehghanifard, E., & Mirzaei, R. (2012). Comparative study of SMBR and extended aeration activated sludge processes in the treatment of high-strength wastewaters. Desalination, 287, 109-115
  16. Morimura, T., & Noerbambang, S. M. (2000). Perancangan dan Pemeliharaan Sistem Plambing. Jakarta: PT. Pradnya Paramita
  17. Siregar, S. A. (2005). Instalasi pengolahan air limbah. Kanisius
  18. Sasse, L. (1998). DEWATS: Decentralised wastewater treatment in developing countries. BORDA, Bremen Overseas Research and Development Association
  19. Satiti, Epifani. (2011). IDENTIFIKASI DAN KARAKTERISASI LIMBAH CAIR SERTA EVALUASI INSTALASI PENGOLAHAN AIR LIMBAH (IPAL) PASAR TRADISIONAL
  20. Sofiana, A. I., Utomo, B., & Sudarto, S. (2018). EVALUASI INSTALASI PENGOLAHAN AIR LIMBAH (IPAL) UNIVERSITAS SEBELAS MARET SURAKARTA. Matriks Teknik Sipil, 6(1)
  21. Umum, P. M. P., & Indonesia, P. R. R. (2017). Penyelenggaraan Sistem Pengelolaan Air Limbah Domestik. Nomor 04/PRT/M
  22. Wanggay, P. A. (2013). Analisa Perhitungan Kebutuhan Air Bersih Dan Air Kotor
  23. Yulistyorini, A., Camargo-Valero, M. A., Sukarni, S., Suryoputro, N., Mujiyono, M., Santoso, H., & Tri Rahayu, E. (2019). Performance of anaerobic baffled reactor for decentralized wastewater treatment in urban Malang, Indonesia. Processes, 7(4), 184

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