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Principles of Technology for Bottling Medicinal Mineral Waters of Sairme Using the Example of Source № 3a

DOI: 10.4236/ajac.2024.154008, PP. 135-138

Keywords: Sairme Mineral Water Deposit, Oxidation-Reduction Potential, Trace Elements Chemical Composition, Seasonality

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Abstract:

Sairme mineral water, one of the famous mineral waters in Georgia, is renowned for its exceptional healing properties. The distinctiveness and therapeutic benefits of the naturally sourced mineral water, known as “Sairme”, stem from its rich array of microelements, notably including iron and manganese. Since 1948, the bottling of Sairme mineral water has been a prominent activity. Named after the Sairme deposit, this mineral water is packaged in various formats to cater to diverse consumer preferences. The bottling process involves transporting the mineral water from wells to the bottling plant through pipelines. Prior to bottling, the mineral water undergoes meticulous processing stages in adherence to current Georgian and international regulations. This process ensures that the concentration of trace elements in the bottled water is minimized, maintaining its purity and quality. Given the importance of preserving the microelements present in bottled mineral water, our research is dedicated to optimizing the technological process. Our objective is to safeguard the valuable microelements while ensuring the highest standards of quality and safety in the final product.

References

[1]  Mkheidze, B. and Zautashvili, B. (2011) Hydrology of Georgia. Georgian Technical University, Tbilisi.
https://publishhouse.gtu.ge/en/post/391
[2]  Eristav, D. (1966) Mineral Waters of Georgia. Soviet Georgia, Tbilisi, 42-43.
[3]  Marjanadze, T. and Gagoshvili, A. (1978) Sairme Resort. Soviet Georgia, Tbilisi, 7.
[4]  Tarkhan-Mouravi, I., Saakashvili, N. and Kutateladze, N. (2009) Resorts of Georgia. Soviet Georgia, Tbilisi.
[5]  Petraccia, L., Liberati, G., Masciullo, S.G., Grassi, M. and Fraioli, A. (2006) Water, Mineral Waters and Health. Clinical Nutrition, 25, 377-385.
https://doi.org/10.1016/j.clnu.2005.10.002
[6]  James, C.N., Copeland, R.C. and Lytle, D.A. (2004) Relationships between Oxidation-Reduction Potential, Oxidant, and pH in Drinking Water.
https://cfpub.epa.gov/si/si_public_record_report.cfm?Lab=NRMRL&dirEntryId=125092
[7]  Lv, Y., Xiao, K., Yang, J., Zhu, Y., Pei, K., Yu, W., et al. (2019). Correlation between Oxidation-Reduction Potential Values and Sludge Dewaterability during Pre-Oxidation. Water Research, 155, 96-105.
https://doi.org/10.1016/j.watres.2019.02.049

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