Penentuan status mutu air sungai di kegiatan konstruksi PLTU Kotabaru dengan STORET dan Indeks Pencemaran
Keywords:
PLTU Kotabaru, water quality, STORET, Pollution Index
Abstract
PLTU Kotabaru (2 x 7 MW) is a power plant that has 2 turbines with a capacity of 7 MW each and is located in Sigam Village, Kota Baru Regency, South Kalimantan Province. Surface water monitoring was carried out to see the impact caused by the construction of the Kotabaru PLTU in affecting the quality of surface water by determining its quality status. Parameters that exceed the quality standard are TSS, TDS, BOD, COD, DO, total coliform and fecal coliform. The STORET method identified that the classification of surface water quality was classified as heavily polluted. While the pollution index method identified that the classification of surface water quality was included in the lightly polluted category. The high quality standards in several parameters were not caused by the construction activities of the PLTU Kotabaru (2 x 7 MW) but from domestic activities in the form of sewage disposal and industrial activities around the Kemuning River.
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References
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Effendi H. 2003. Telaah kualitas air bagi pengelolaan sumberdaya dan lingkungan perairan. Kanisius. Yogyakarta.
Effendi H. 2016. Evaluation of water quality status of Ciliwung River based on Pollu-tion Index [Proceeding]. A paper presented at 36th Annual Conference of the International As-sociation for Impact Assessment (IAIA 16), Aichi-Nagoya, Japan, 11-14 May 2016.
Firdaus A dan Aryawati R. 2015. Distribusi total suspended solid dan total dissolved solid di muara Sungai Banyuasin Kabupaten Banyuasin Provinsi Sumatera Selatan. Maspari Journal: Marine Science Research 7(1):49-62.
Hayat F and Kurniatillah N. 2021. Microbiological and water quality status of Cibanten River [Proceeding]. First International Conference on Social Science, Humanity, and Public Health (ICOSHIP 2020):198-200
KepMenLH (Keputusan Menteri Lingkungan Hidup) Nomor 115 Tahun 2003 tentang pedoman penentuan status mutu air.
Lee AH and Nikraz H. 2015. BOD: COD ratio as an indicator for river pollution [Proceeding]. International Proceedings of Chemical, Biological and Environmental Engineering 88(15):89-94.
Oktavia SR, Effendi H dan Hariyadi S. 2018. Status mutu air Kali Angke di Bogor, Tangerang, dan Jakarta. Jurnal Pengelolaan Lingkungan Berkelanjutan 2(3):220-234.
PP (Peraturan Pemerintah) Nomor 22 Tahun 2021 tentang penyelenggaraan perlindungan dan pengelolaan lingkungan hidup.
Pramanik RA, Purnomo EP dan Kasiwi AN. 2020. Dampak perizinan pembangunan PLTU Batang bagi kemajuan perekonomian masyarakat serta pada kerusakan lingkungan. Kinerja 17(2):248-256.
[PT.PLN] Perseroan Terbatas Pembangkit Listrik Negara. 2010. Dokumen upaya pengelolaan lingkungan hidup (UKL) dan upaya pemantauan lingkungan (UPL). PT PLN. Jakarta.
Rusydi AF. 2018. Correlation between conductivity and total dissolved solid in various type of water: A review. IOP Conference Series: Earth and Environmental Science 118(1): 012019.
Safitri LF, Widyorini N dan Jati OE. 2018. Analisis kelimpahan total bakteri coliform di perairan muara Sungai Payung, Morosari, Demak. Jurnal Saintek Perikanan 14(1):30-35.
Sara PS, Astono W dan Hendrawan DI. 2018. Kajian kualitas air di Sungai Ciliwung dengan parameter BOD dan COD [Prosiding]. Seminar Nasional Cendekiawan 4:591-597.
Sari TFP, Makmur M dan Rozikin M. 2014. Efektivitas implementasi UKL-UPL dalam mengurangi kerusakan lingkungan (studi pada badan lingkungan hidup Kabupaten Malang dan masyarakat sekitar PT Tri Surya Plastik Kecamatan Lawang). Jurnal Administrasi Publik 2(1):161-168.
Sumampouw OJ. 2019. Kandungan bakteri penyebab diare (coliform) pada air minum (studi kasus pada air minum dari depot air minum isi ulang di Kabupaten Minahasa). Journal Public Health Without Border 1(2):8-13.
Sururi MR, Roosmini D and Notodarmojo S. 2018. Chromophoric and liability quantification of organic matters in the polluted rivers of Bandung watershed, Indonesia. In MATEC Web of Conferences EDP Sciences 154: 02002.
Sururi MR, Dirgawati M, Roosmini D and Notodarmodjo S. 2021. Characterization of fluorescent dissolved organic matter in an affected pollution raw water source using an excitation-emission matrix and parafac. Environment and Natural Resources Journal 19(6):459-467.
Tai H, Yang Y, Liu S and Li D. 2011. A review of measurement methods of dissolved oxygen in water [Proceeding]. Computer and Computing Technologies in Agriculture V - 5th IFIP:569-576.
Tarigan M. 2010. Kandungan total zat padat tersuspensi (total suspended solid) di perairan Raha, Sulawesi Tenggara. Makara Journal of Science 14(3):109-119.
Wahab NA, Kamarudin MKA, Toriman ME, Ata FM, Juahir H, Ghazali A and Anuar ANA. 2018. The evaluation of dissolved oxygen (DO), total suspended solids (TSS) and suspended sediment concentration (SSC) in Terengganu River. Malaysia. International Journal of Engineering & Technology 7(3):44-48
Wardhana WA. 2004. Dampak pencemaran lingkungan (Edisi Revisi). Penerbit Andi. Yogyakarta.
Published
2022-12-28
How to Cite
Lanang, R., & Sururi, M. (2022). Penentuan status mutu air sungai di kegiatan konstruksi PLTU Kotabaru dengan STORET dan Indeks Pencemaran. Jurnal Pengelolaan Lingkungan Berkelanjutan (Journal of Environmental Sustainability Management), 6(3), 180-193. https://doi.org/https://doi.org/10.36813/jplb.6.3.180-193
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