PROBLEMS IN THE USE OF WATER RESOURCES IN INDUSTRY AND THEIR SOLUTIONS

Main Article Content

Abstract:

Water is a critical resource in industrial operations, essential for various processes ranging from manufacturing to power generation. However, unsustainable water use by industries poses significant challenges, including water scarcity, pollution, and increased operational costs. This article explores the current state of water management in industry, identifies key issues, and proposes solutions for improving efficiency and sustainability. The methodology includes a comprehensive literature review of water management practices, analysis of successful case studies, and synthesis of recommendations from industry experts. Data on water consumption, pollution levels, and industry practices are sourced from authoritative publications, academic journals, industry reports, and government sources.

Article Details

How to Cite:

Tolibova , M. ., Asadov , B. ., & Nasibov , B. . (2024). PROBLEMS IN THE USE OF WATER RESOURCES IN INDUSTRY AND THEIR SOLUTIONS. Young Scientists, 2(17), 49–53. Retrieved from https://in-academy.uz/index.php/yo/article/view/33122

References:

Kunz, N. C. (2016). Catchment-based water management in the mining industry: Challenges and solutions. The Extractive Industries and Society, 3(4), 972-977.

Demadis, K. D., Mavredaki, E., Stathoulopoulou, A., Neofotistou, E., & Mantzaridis, C. (2007). Industrial water systems: problems, challenges and solutions for the process industries. Desalination, 213(1-3), 38-46.

Gleick, P. H. (2000). A look at twenty-first century water resources development. Water international, 25(1), 127-138.

Abdukodirova, M. N., Nasibov, B. R., & Toirjonov, A. S. (2023). THE ROLE AND IMPORTANCE OF MECHANICAL WASTEWATER TREATMENT DEVICES TODAY. Евразийский журнал академических исследований, 3(9), 254-259.

Ismailhodjaev, B., Kuatbekova, K., Kholmirzaeva, B., Boburbek, N., Mirzaqubulov, J., Eskaraev, N., & Abduraimova, N. (2022). Activity, patterns, and localization of carbonic acid enzymes in algae used in wastewater treatment. Texas Journal of Engineering and Technology, 14, 11-17.

Egamberdiev, N. B., Sharipjonova, Z., Nasibov, B., Khomidov, A. O., Alimova, M. I., & Abdumalikov, A. A. (2021). Biological treatment of industrial and domestic wastewater of a brewery in Uzbekistan. In E3S Web of Conferences (Vol. 264, p. 01055). EDP Sciences.

Kosolapova, N. A., Matveeva, L. G., Nikitaeva, A. Y., & Molapisi, L. (2021). The rational use of water resources in the strategy of industry 4.0. Water resources management, 35(9), 3023-3041.

Navarro-Ramírez, V., Ramírez-Hernandez, J., Gil-Samaniego, M., & Rodríguez-Burgueño, J. E. (2020). Methodological frameworks to assess sustainable water resources management in industry: A review. Ecological Indicators, 119, 106819.

Hall, J. W., Mortazavi‐Naeini, M., Borgomeo, E., Baker, B., Gavin, H., Gough, M., ... & Watts, G. (2020). Risk‐based water resources planning in practice: a blueprint for the water industry in England. Water and Environment Journal, 34(3), 441-454.

Dzurik, A. A. (2003). Water resources planning. Rowman & Littlefield.

Boguniewicz-Zablocka, J., Klosok-Bazan, I., & Naddeo, V. (2019). Water quality and resource management in the dairy industry. Environmental Science and Pollution Research, 26, 1208-1216.

Larsen, T. A., Hoffmann, S., Lüthi, C., Truffer, B., & Maurer, M. (2016). Emerging solutions to the water challenges of an urbanizing world. Science, 352(6288), 928-933.

Ferrucci, A., & Vocciante, M. (2021). Improved management of water resources in process industry by accounting for fluctuations of water content in feed streams and products. Journal of Water Process Engineering, 39, 101870.

Ait Hsine, E., Benhammou, A., & Pons, M. N. (2005). Water resources management in soft drink industry-water use and wastewater generation. Environmental technology, 26(12), 1309-1316.

Dvarioniene, J., & Stasiskiene, Z. (2007). Integrated water resource management model for process industry in Lithuania. Journal of Cleaner Production, 15(10), 950-957.

Nasibov, B. R., Abdukodirova, M. N., & Toirjonov, A. S. (2023). PROCESSING OF INDUSTRIAL WASTE WATER AND ITS USE FOR THE NECESSARY PURPOSES. International Multidisciplinary Journal for Research & Development, 10(09), 75-80.

Nasibov, B. R., Mavlyanova, D. A., & Turdaliyeva, S. R. (2023). Improving the methods of increasing the efficiency of biological treatment of industrial wastewater. Ethiopian International Journal of Multidisciplinary Research, 10(09), 303-308.

Jaloliddin o’g’li, S. J., & Rustamjon o’g’li, N. B. (2023). Investigation of tolerance of sorghum crop to water deficit conditions during drip irrigation. Texas Journal of Agriculture and Biological Sciences, 15, 109-115.

Shoturaev, B. S., & Nasibov, B. R. (2022). Study Of Efficiency Of Water And Energy Resources In Growing Agricultural Crops Through Drop Irrigation. In The Example Of Amarant Crop. Texas Journal of Agriculture and Biological Sciences, 5, 54-58.

Назаров, Х. (2023). ЭКОЛОГИК ТАЪЛИМНИ РИВОЖЛАНТИРИШ: МУАММО ВА ЕЧИМЛАРИ. JOURNAL OF INNOVATIONS IN SCIENTIFIC AND EDUCATIONAL RESEARCH, 6(5), 235-247.

Nazarov, K., SHarofiddinov, R. S., Bolliyeva, I. A., & To’xtayeva, M. X. (2023). SUV RESURSLARIDAN FOYDALANISHNING HUQUQIY ASOSLARI. Молодые ученые, 1(19), 25-29.

Nazarov, K. (2023). O ‘ZBEKISTONDA CHIQINDILAR BOSHQARISH IQTISODIYOTI MUAMMOLAR VA YECHIMLAR. World of Science, 6(5), 155-161.

Nazarov, K. (2024). PROBLEMS OF THE ECOLOGICAL SECURITY SYSTEM. Spectrum Journal of Innovation, Reforms and Development, 24, 76-83.

Назаров, Х. (2023). ЭКОЛОГИК ТАЪЛИМНИ РИВОЖЛАНТИРИШ: МУАММО ВА ЕЧИМЛАРИ. JOURNAL OF INNOVATIONS IN SCIENTIFIC AND EDUCATIONAL RESEARCH, 6(5), 235-247.

Abdullaev, B. D., Razzakov, R. I., Okhunov, F. A., & Nasibov, B. R. (2023). Modeling of hydrogeological processes in irrigation areas based on modern programs. In E3S Web of Conferences (Vol. 401, p. 02006). EDP Sciences.