Evaluasi Instalasi Pengolahan Air Minum Unit Dago Pakar Perumda Tirtawening Kota Bandung

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Mayla Zahra Nugraha
Mohamad Rangga Sururi

Abstract

Dago Pakar Water Treatment Plant (WTP) capacity 600 liters/second, this WTP managed by Perumda Tirtawening Kota Bandung. It was established in 1990 and is still operating today. The main problem for water authority is the raw water quality of Cikapundung River deteriorated. This study refers to water quality compared with applicable regulations, design criteria based on literature, and evaluation of existing WTP using existing secondary data. The research shows some parameters were not meet the standard, there are several units that do not comply with the design criteria, and there are problems with the operation and maintenance of the Dago Pakar WTP. The causes of the existing problems are predicted based on activities carried out in the area around the Cikapundung River, namely the flushing of sewage, disposal of domestic waste, and the use of the river as a means of agricultural irrigation. Suggestions given regarding the problems that occurred were repairing the damaged Dago Pakar WTP equipment, adding sludge processing units such as sludge drying bed (SDB) and aeration units, tightening regulations for domestic or industrial waste disposal.

Article Details

How to Cite
[1]
Mayla Zahra Nugraha and Mohamad Rangga Sururi, “Evaluasi Instalasi Pengolahan Air Minum Unit Dago Pakar Perumda Tirtawening Kota Bandung”, JSE, vol. 9, no. 1, pp. Hal 8268 – 8280, Jan. 2024.
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References

Hamid, D. A. S. A. (2019). Analisis Hubungan Tata Guna Lahan Terhadap Kualitas Air Parameter Mikrobiologi Di Sungai Opak Yogyakarta.

Cinthya, C., Sururi, M. R., & Ainun, S. (2019). Efektivitas Proses Ozonisasi Studi Kasus: IPA dan Miniplant Dago Pakar. Jurnal Reka Lingkungan, 7(2), 90-99.

Roosmini, D., Notodarmojo, S., & Sururi, M. R. (2018, June). The characteristic of natural organic matter (NOM) of water from Cikapundung River Pond. In IOP conference series: earth and environmental science (Vol. 160, No. 1, p. 012021). IOP Publishing.

Wirdarti, Paulina Sri., Sudrajat, Arief. (2014). Penilaian Resiko Dengan Menggunakan Metode Pendekatan Analisis Resiko Ekologi Dalam Rencana Pengamanan Air (RPA) Sumber Dari Sungai Cikapundung. Jurnal Teknik Lingkungan, Volume 20 Nomor 1, Mei 2014 (Hal 29-37).

Afiatun, E., Wahyuni, S., & Merinda, S. (2018). Strategi Optimasi Pemanfaatan Sumber Air Bantar Awi Sungai Cikapundung Terhadap Instalasi Pengolahan Air Minum Dago Pakar. Journal of Community Based Environmental Engineering and Management, 2(2), 51-60.

Darmawan, D. R., Sururi, M. R., & Hartati, E. (2023). Perencanaan Instalasi Pengolahan Air Minum di Kecamatan Bandung Kidul, Kota Bandung. Jurnal Serambi Engineering, 8(2).

Hermanto, J. (2014). Evaluasi dan Optimalisasi Instalasi Pengolahan Air Minum (IPA I) Sungai Sengkuang PDAM Tirta Pancur Aji Kota Sanggau. Jurnal Teknologi Lingkungan Lahan Basah, 2(1).

Peraturan Menteri Dalam Negeri Republik Indonesia Nomor 71 tahun 2016 tentang tentang Perhitungan dan Penetapan Tarif Air Minum

Perumahan Rakyat Republik Indonesia Nomor 27/PRT/M/2016 tentang Penyelenggaraan Sistem Penyediaan Air Minum.

Peraturan Pemerintah RI No. 22 Tahun 2021 tentang Penyelenggaraan Perlidungan dan Pengelolaan Lingkungan Hidup

Witjaksono, R. F., & Sururi, M. R. (2023). Evaluasi Instalasi Pengolahan Air Babakan Pada Perumdam TKR Kabupaten Tangerang. Jurnal Serambi Engineering, 8(1).

Peraturan Menteri Kesehatan No. 2 Tahun 2023 tentang Peraturan Pelaksanaan Peraturan Pemerintah Nomor 66 Tahun 2014 Tentang Kesehatan Lingkungan.

Eckenfelder, W Wesley, Jr. (2000), “Industrial Water pollution Control”, 3rd edition, McGraw-Hill, Inc., New York.

Qasim, S.R., Motley, E.M., dan Zhu, G., 2000, Water Work Engineering : Planning, Design & Operation, Prentice Hall PTR, Texas.

Kawamura, S. 1991. Integrated Design of Water Treatment Facilities. John Willey & Sons, Inc

Jica (1990), The Study On Urban Drainage And Waste Water Disposal Project In The City Of Jakarta

Droste, Ronald L., (1997), Theory and Practice of Water and Wastewater Treatment, John Wiley & Sons, Inc., United States of America.

Huisman, L. (1977). Sedimentation and Flotation Mechanical Filtration. Jakarta: Delft University of Technology. Delft. Syarif Hidayatullah.

Schulz, C.R dan Okun, D.A. 1984. Surface Water Ttreatment for Communities in Developing Countries. Water and Sanitation for Health (WASH) Project of the United States Agency for International Development.

AWWA (American Water Works Association), (1998). Water Treatment Plant Design New York: McGraw Hill Companies, Inc.

Badan Standarisasi Nasional. 2008. SNI 6774-2008: Tata Cara Perencanaan Unit Paket Instalasi Pengolahan Air. Jakarta.

Montgomery, J. M., 1985. Water Treatment Principles and Design. John Wiley & Sons, Inc.USA.

Reynold, T.D. 1982. Unit Operation and Process In Environmental Engineering. Monterey California.

Fair, G. M., Geyer, J. C., dan Okun, D. A. (1986). Water and Wastewater Engineering volume: 2 Water Purification and Wastewater Treatment Disposal. New York: John Willey dan Sons Inc.

Effendi, H. (2003). Telaah Kualitas Air: Bagi Pengelolaan Sumber Daya dan Lingkungan Perairan. Jakarta: Kanisius.