PARAMETER FISIKA, KIMIA DAN BAKTERIOLOGI AIR MINUM ALKALI TERIONISASI YANG DIPRODUKSI MESIN KANGEN WATER LeveLuk SD 501
DOI:
https://doi.org/10.31851/sainmatika.v16i1.2845Abstract
ABSTRACT
Ionized alkaline drinking water is alkaline and has a high redox potential value which is a good antioxidant. Considering the consumption of alkaline drinking water there are still pros and cons in society because research on ionized alkaline water in Indonesia has not been widely published yet, so the researchers intend to conduct research on the physical, chemical and bacteriological parameters of ionized alkaline drinking water produced by Kangen Water LeveLuk machines SD 501 with the aim of knowing the quality of ionized alkaline drinking water, based on physical, chemical and bacteriological parameters. This research is descriptive qualitative. The quality inspection of ionized alkaline drinking water is carried out at the South Sumatra Provincial Health Office Laboratory, which includes examining physical parameters (odor, turbidity, taste, color, amount of dissolved solids (TDS)), chemical parameters (including pH, iron, fluoride, hardness checks , chloride, chromium valence 6, manganese, nitrate, nitrite, zinc, cyanide, sulfate, copper, aluminum), and bacteriological testing (including tests for coliform and colitinja). Based on the results of the study, the samples of ionized alkaline drinking water produced by households located in Lorong Amilin Rt 4 Rw 2, Kelurahan Tangga Takat, Seberang Ulu II, Plaju Palembang fulfilled the requirements stipulated under the Minister of Health Regulation of the Republic of Indonesia No.492 / MENKES / PER / IV / 2010.
Keywords: ionized alkaline water, physical, chemical, bacteriological parameters
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Abstrak
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Air minum alkali terionisasi bersifat basa dan memiliki nilai potensial redoks yang tinggi yakni merupakan antioksidan yang baik. Mengingat konsumsi air minum yang bersifat alkali masih terdapat pro dan kontra di masyarakat karena penelitian tentang air alkali terionisasi di Indonesia juga belum banyak dipublikasikan, maka peneliti bermaksud melakukan penelitian tentang parameter fisika, kimia dan bakteriologi dari air minum beralkali terionisasi yang diproduksi mesin Kangen Water LeveLuk SD 501 dengan tujuan dapat mengetahui kualitas air minum alkali terionisasi, berdasarkan parameter fisik, kimia dan bakteriologi. Penelitian ini bersifat deskriptif kualitatif. Pemeriksaan kualitas air minum alkali terionisasi dilaksanakan di Laboratorium Dinas Kesehatan Provinsi Sumatera Selatan, yaitu meliputi pemeriksaan parameter fisika (bau, kekeruhan, rasa, warna, jumlah zat padat terlarut (TDS)), parameter kimia (mencakup pemeriksaan pH, besi, fluoride, kesadahan, klorida, kromium valensi 6, mangan, nitrat, nitrit, seng, sianida, sulfat, tembaga, alumunium), dan pengujian bakteriologi (meliputi uji adanya coliform dan colitinja). Berdasarkan hasil penelitian menunjukkan bahwa sampel air minum alkali terionisasi yang diproduksi indistri rumah tangga yang berlokasi di Lorong Amilin Rt 4 Rw 2 Kelurahan  Tangga Takat Kecamataan Seberang Ulu  II Plaju Palembang  memenuhi persyaratan yang ditetapkan berdasarkan Peraturan Menteri Kesehatan Republik Indonesia No.492/MENKES/PER/IV/2010.
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Kata Kunci : air alkali terionisasi, parameter fisik, kimia, bakteriologi
References
DAFTAR PUSTAKA
Amani , Fauzi., Kiki, Prawiroredjo. (2016). Alat Ukur Kualitas Air Minum dengan Parameter pH, Suhu, Tingkat Kekeruhan, dan Jumlah Padatan Terlarut. JETri, 14(1), 49-62.
Astari, Rahmita ., Rofiq, Iqbal. 2009. Kualitas Air Dan Kinerja Unit Pengolahan di Instalasi Pengolahan Air Minum. ITB.
Buck, R. P. 2002. Measurement of pH. Definition, Standards, And Procedures (IUPAC Recommendations 2002). Pure and applied chemistry 74(11), 2169- 2200.
Catur, M Marliando Satria Pangestu., Asep, Sukohar. 2016. Air Alkali Terionisasi Pencegahan Termutakhir Timbulnya Kanker. Majority, 5(2), 74-80.
Deanna C and James, KB. 2006. Gene Therapy For Cancer Treatment: Past, Present And Future. Clin Med Res. 4(3), 218–27.
Effendi, Hefni, 2003. Telaah Kualitas Air Bagi Pengelolaan Sumber Daya dan Lingkungan Perairan. Yogyakarta : Kanisius.
Henry, M. dan Jacques C. 2013. Physico-Chemical, Biological and Therapeutic Characteristics of Electrolyzed Reduced Alkaline Water (ERAW). Water, 5(4), 2094-2115.
https://infokangenwater.id/2017/06/apa- itu-air-alkali.html
Ignacio RMC, Kwak H, Yun Y, Easter M, Sajo J V, Yoon Y, et al. 2013. The Drinking Effect of Hydrogen Water on Atopic Dermatitis Induced by Dermatophagoides farinae Allergen in NC / Nga Mice. Evidence-based Complement Altern Med :1–5.
Kementerian Kesehatan, Peraturan Menteri Kesehatan No. 492/Menkes/Per/IV/ 2010. [sitasi 29 November 2011], tersedia di http:// www.hukor. depkes.go.id/up_prod_ permenkes/PMK%20No.%20492%20ttg%20Persyaratan%20Kualitas%20Air%20Minum.pdf.
Khushboo, P., Lipsa, S., Priti, Y., Divya, P., Kaenat, S., Shivani, P., et al. (2014). Alkaline Water: The Disease Fighting Water. World Journal of Pharmaceutical Research, 3(3), 3845-53.
Kilmet, F. 2013. Alkaline Water In The Natural Treatment Of Asthma And Allergies [Internet]. Water For Health. . Available from: http://www.water-for-health.co.uk/wp/wp content/uploads/2013/04/water-for-health-23.jpeg.
Marliando, Satria Pangestu Catur., Asep, Sukohar. 2016. Air Alkali Terionisasi Pencegahan Termutakhir Timbulnya Kanker. Majority Jurnal. 5(2), 74-80.
Rosa MCI, Kyung-Bok J and Kyu-Jae L. 2012. Clinical Effect and Mechanism of Alkaline Reduced Water. Journal of Food and Drug Analysis. 1(20), 394-97.
Siswantoro, Edy., Nasrul, Hadi Purwanto., Sutomo. 2018. Efektivitas Konsumsi Air Alkali Terhadap Penurunan Kadar Gula Darah Acak pada Penderita Diabetes Mellitus Tipe 2. Jurnal Keperawatan. 11(1), 10-21.
Shinya, H. 2009. The Miracle of Enzyme Selfhealing Program. Bandung: PT Mizan Pustaka;
Shirahata, S., Hamasaki, T., Teruya, K. 2012. Advanced Research on The Health Benefit of Reduced Water. Trends in Food Science and Technology. Elsevier Ltd; 23(2):124–31.
Timpano, A.J., S.H. Schoenholtz, C.E. Zipper, D.J. Soucek 2010. â€Isolating effects of total dissolved solids on aquatic life in central Appalachian coalfield streams†Proceedings America Society of Mining and Reclamation 2010. [Online]. Hlm. 1284-1302. Tersedia di: http://www.asmr.us/Publications/ Conference%20Proceedings/2010/ 1284-Timpano-VA.pdf [16 Okt 2015].
Yudo, S., dan Raharjo, P. N. 2006, Evaluasi Teknologi Air Minum Isi Ulang di DKI Jakarta. JAI, (1)3, 251-263.
Yustina, W., Nahwa, A., Galuh, H. 2016. Pengaruh Pemberian Air Alkali Terionisasi terhadap Kualitas Hidup Anak Asma. Jurnal Kedokteran Diponegoro. Vol. 5, No. 4, Online : Http://Ejournal- S1.Undip.Ac.Id/Index.Php/Medico Issn Online : 2540-8844.
Wan-Jun Z, Masaaki N, Takefumi M, Kiyotaka H, Hiroyuki T, Junichiro K, et al. 2013. Amelioration Of Cardio-Renal Injury With Aging In Dahl Salt-Sensitive Rats By H2- Enriched Electrolyzed Water. Medical Gas Research. 3(26):1-8.