PENGOLAHAN AIR SUMUR GALI YANG TERCEMAR BESI (FE) DAN MANGAN (MN): STUDI KASUS DI KELURAHAN KOYA TIMUR, KOTA JAYAPURA
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Abstract
Clean water quality is influenced by groundwater pollution, this pollution results in a decrease in water quality so that it does not meet health requirements. The clean water quality standards are 0.2 mg / l for Fe and 0.1 mg / l for manganese. The city of Jayapura itself common pollution is iron (Fe) and manganese (Mn) in addition to other physical and chemical criteria. This pollution is because the soil in Jayapura tends to be swampy and calcareous. The study aimed to treatment of dug well water contaminated with Fe and Mn by bubble aerator method, electrolysis, and ion changer case study of community wells in East Koya Village, Jayapura City. This study used pure experiments of three treatments, namely bubble aerator, electrocoagulation, and ion changer with purposive sampling techniques. Test analysis using one-way Anova followed by Post Hoc test. The variant homogeneity test showed a p-value of 0.049 while the One-Way Anova test showed a significant difference in iron and manganese after treatment with a p-value of 0.000. However, what is effective in treatment iron and manganese contamination according to drinking water and clean water quality standards in accordance with Indonesian Minister of Health Regulation No. 2 of 2023 is an ion changer with a filtration duration of 90 minutes with an effectiveness in reducing Fe by 99.83% and Mn by 97%, while bubble aerators are only effective in treatment Mn filtration for 90 minutes with a decrease of 99%. The study concluded treatment of dug well water contaminated with Fe and Mn in accordance with clean water and drinking water quality standards is an ion changer.
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References
M. Wang, M. Wang, L. Yang, T. Yang, J. Li, And Y. Chen, “Distribution Characteristics And Genesis Of Iron And Manganese Ions In Groundwater Of Eastern Sanjiang Plain, China,” Water (Switzerland), Vol. 15, No. 11, 2023, Doi: 10.3390/W15112068.
I. S. Ivanova, O. E. Lepokurova, O. S. Pokrovskii, And S. L. Shvartsev, “Iron-Containing Groundwater In The Upper Hydrodynamic Zone In The Central Part Of West-Siberian Artesian Basin,” Water Resour., Vol. 41, No. 2, Pp. 163–177, 2014, Doi: 10.1134/S0097807814020080.
Kementerian Lingkungan Hidup, Status Lingkungan Hidup Indonesia Tahun 2022. 2023.
Aviaska Wienda Saraswati, “Hari Air Sedunia: Seberapa Bagus Kualitas Air Indonesia?,” 2023. Https://Greeneration.Org/Publication/Green-Info/Hari-Air-Sedunia-Kualitas-Air-Indonesia/
S. Mulyono, A. H. Markus, And W. Mulyani, “Laundry Wastewater Treatment Using Active Carbon Media From Coconut Shell, Matoa Shaws Powder, Iron And Lingua Wood,” Biolink (Jurnal Biol. Lingkung. Ind. Kesehatan), Vol. 9, No. 1, Pp. 106–115, 2022, Doi: 10.31289/Biolink.V9i1.6357.
F. K. Sri Mulyono, Wiwiek Mulyan, “Efektifitas Media Penukar Ion Zeolit Dan Ferolit Dalam Menurunkan Kadar Fe Air Sumur_2020,” J. Penelit. Kesehat. Suara Forikes, Vol. 11, Pp. 95–100, 2020, Doi: Doi: Http://Dx.Doi.Org/10.33846/Sf11nk416.
Q. Nugrahayu And A. Purnomo, “Penurunan Kandungan Zat Kapur Dalam Air Tanah Dengan Menggunakan Media Zeolit Alam Dan Karbon Aktif Menjadi Air Bersih,” J. Tek. Pomits, Vol. 02, No. 2, Pp. 124–126, 2013, Doi: 10.12962/J23373539.V2i2.4410.
R. Mudzielwana, W. M. Gitari, And P. Ndungu, “Removal Of As(Iii) From Synthetic Groundwater Using Fe-Mn Bimetal Modified Kaolin Clay: Adsorption Kinetics, Isotherm And Thermodynamics Studies,” Environ. Process., Vol. 6, No. 4, Pp. 1005–1018, 2019, Doi: 10.1007/S40710-019-00397-4.
M. El Kady, H. Shokry, And H. Hamad, “Effect Of Superparamagnetic Nanoparticles On The Physicochemical Properties Of Nano Hydroxyapatite For Groundwater Treatment: Adsorption Mechanism Of Fe(Ii) And Mn(Ii),” Rsc Adv., Vol. 6, No. 85, Pp. 82244–82259, 2016, Doi: 10.1039/C6ra14497g.
A. Mushtaq Et Al., “Magnetic Hydroxyapatite Nanocomposites: The Advances From Synthesis To Biomedical Applications,” Mater. Des., Vol. 197, P. 109269, 2021, Doi: 10.1016/J.Matdes.2020.109269.
P. Yu, J. Wang, J. Chen, J. Guo, H. Yang, And Q. Chen, “Successful Control Of Phosphorus Release From Sediments Using Oxygen Nano-Bubble-Modified Minerals,” Sci. Total Environ., Vol. 663, Pp. 654–661, 2019, Doi: 10.1016/J.Scitotenv.2019.01.265.
M. Arshadi, F. Pourhossein, S. M. Mousavi, And S. Yaghmaei, “Green Recovery Of Cu-Ni-Fe From A Mixture Of Spent Pcbs Using Adapted A. Ferrooxidans In A Bubble Column Bioreactor,” Sep. Purif. Technol., Vol. 272, No. December 2020, P. 118701, 2021, Doi: 10.1016/J.Seppur.2021.118701.
T. Rajeshkumar, R. Jose, And G. Rajaraman, “Magnetic Coupling In Oximato Bridged {Mniii6} Clusters Bridged By Diamagnetic Dicyano-Metallato Linkers: A Theoretical Perspective,” Polyhedron, Vol. 206, No. June, P. 115346, 2021, Doi: 10.1016/J.Poly.2021.115346.
Peraturan Menteri Kesehatan Ri, “Peraturan Menteri Kesehatan Nomor 2 Tahun 2023 Tentang Peraturan Pelaksanaan Peraturan Pemerintah Nomor 66 Tahun 2014 Tentang Kesehatan Lingkungan.” 2023.
Peraturan Pemerintah Ri, Peraturan Pemerintah Nomor 22 Tahun 2021 Tentang Penyelenggaraan Perlindungan Dan Pengelolaan Lingkungan Hidup. 2021.
R. Chandrawijaja, “Air Segar Untuk Penduduk Di Daerah Rawa Dengan Metode Menara Berlipat,” Info-Teknik, Vol. 2, No. 1, Pp. 1–6, 2001, Doi: Http://Dx.Doi.Org/10.20527/Infotek.V2i1.444.G367.
F. Mairizki, A. Y. Putra, A. Suryadi, N. Sahrofah, And Ainun, “Kualitas Fisikokimia Air Tanah Dangkal Di Bantan Air, Bengkalis, Riau,” J. Katalisator, Vol. 8, No. 1, Pp. 24–41, 2023, Doi: Http://Doi.Org/10.22216/Jk.V5i2.5717.
N. Agustina And M. Febriza Aquarista, “Kualitas Air Rawa Terhadap Keluhan Kesehatan Masyarakat Desa The Quality Of Water Swamp On Complaints Health Villagers,” J. Kesehat., Vol. 12, No. 2, Pp. 220–227, 2021, [Online]. Available: Http://Ejurnal.Poltekkes-Tjk.Ac.Id/Index.Php/Jk
S. Munfiah, Nurjazuli, And O. Setiani, “Kualitas Fisik Dan Kimia Air Sumur Gali Dan Sumur Bor Di Wilayah Kerja Puskesmas Guntur Ii Kabupaten Demak Physical And Chemical Water Quality Of Dug And Bore Well In The Working Area Of Public Health Center Ii Guntur Demak Regency,” J. Kesehat. Lingkung. Indones., Vol. 12, No. 2, Pp. 154–159, 2013, [Online]. Available: Https://Ejournal.Undip.Ac.Id/Index.Php/Jkli/Article/View/8553
Z. Matakupan, M. Kololu, R. Limehuwey, N. Hattu, And D. J. Puradimaja, “Karakterisasi Akuifer Dan Analisis Parameter Fisik-Kimia Air Tanah Daerah Pesisir,” Vol. 3, No. 2, Pp. 273–288, 2023, [Online]. Available: Http://Journal.Itera.Ac.Id/Index.Php/Jstvc/Article/View/1197
G. A. Ayoko, K. Singh, S. Balerea, And S. Kokot, “Exploratory Multivariate Modeling And Prediction Of The Physico-Chemical Properties Of Surface Water And Groundwater,” J. Hydrol., Vol. 336, No. 1–2, Pp. 115–124, 2007, Doi: 10.1016/J.Jhydrol.2006.12.013.
Y. E. Pratiwi And Y. D. Hartono, “Efektivitas Limbah Serat Batang Sagu Dalam Mengurangi Kadar Besi (Fe) Pada Air Sumur The Effectiveness Of Sago Stem Fiber Waste In Reducing Iron (Fe) Content In Ground Water,” Instek, Vol. 5, No. 2, Pp. 13–18, 2022, Doi: 10.51454/Instek.V5i2.728.
M. M. T. Afasedanya And E. Cresli, “Kualitas Airtanah Untuk Kebutuhan Konsumsi Warga Sekitar Kampus 1 Dan Kampus 2 Politeknik Amamapare Timika - Papua Tengah,” J. Tek. Amata, Vol. 4, No. 1, Pp. 69–73, 2023, Doi: 10.55334/Jtam.V4i1.91.
E. Karapa And N. Medyati, “Analisis Potensi Pencemaran Airtanah Di Daerah Dok Iv Kota Jayapura Potential Analysis Of Groundwater Pollution In The Dok Iv Of Jayapura City,” Vol. 5, No. 2, Pp. 158–167, 2023, Doi: Https://Doi.Org/10.35970/Jppl.V5i2.1979.
D. Putriani, E. P. Afliansyah, M. Karsina, And A. Walid, “Penurunan Kandungan Zat Besi Dalam Air Sumur Galian Dengan Menggunakan Metode Aerasi,” Tin Terap. Inform. Nusant., Vol. 1, No. 3, Pp. 133–136, 2020, [Online]. Available: Http://Ejurnal.Seminar-Id.Com/Index.Php/Tin/Article/View/433
B. Haidar, B. Triyantoro, And Yulianto, “Efisiensi Variasi Lama Waktu Aerasi Bubble Aerator Terhadap Penurunan Kadar Besi (Fe) Air Sumur Gali Desa Purwogondo Kabupaten Jepara Tahun 2020,” 2020. Https://Repository.Poltekkes-Smg.Ac.Id/Index.Php?P=Show_Detail&Id=23135&Keywords=
U. Diansari, R. Purnaini, And C. Asbanu, “Perbandingan Efisiensi Cascade Aerator Dan Bubble Aerator Dalam Menurunkan Kadar Besi Air Sumur Bor Jurusan Teknik Lingkungan Universitas Tanjungpura 2017 Tentang Standar Baku Mutu Kesehatan Lingkungan Dan Persyaratan Kesehatan Air,” Vol. 10, No. 1, Pp. 11–21, 2022.
E. Septiyani, Y. Zevi, And N. N. Arifianingsih, “Sustainable Regeneration Of Mordenite Mineral As Ion Exchanger Sustainable Regeneration Of Mordenite Mineral As Ion Exchanger For Removal Iron And Manganese In Groundwater,” Matter Int. J. Sci. Technol., vol. 6, no. 1, pp. 147–160, 2021, doi: 10.20319/mijst.2020.61.147160.