Smart Wastewater Management: The Role of AI Technologies

Authors

  • Salohiddinov Fayzulloh Fazliddin o‘g‘li Assistant of Andijan State Technical Institute

Keywords:

Internet of Things, artificial intelligence, machine learning

Abstract

The integration of Artificial Intelligence (AI) technologies into wastewater management systems is revolutionizing the way we treat and monitor water resources. Smart wastewater management utilizes machine learning, data analytics, and real-time sensors to optimize treatment processes, reduce operational costs, and enhance environmental sustainability. AI-based models can predict contaminant levels, detect system malfunctions, and recommend adaptive control strategies. Current trends show increasing implementation of AI in decentralized and automated treatment facilities. This paper explores the key applications of AI in wastewater treatment, highlights recent technological advancements, and discusses the potential future impacts of AI on achieving more efficient and resilient water management systems.

References

1. Ray, S.S.; Verma, R.K.; Singh, A.; Ganesapillai, M.; Kwon, Y.-N. A holistic review on how artificial intelligence has redefined water treatment and seawater desalination processes. Desalination 2023, 546, 116221. [CrossRef]

2. Hou, H.; Ren, A.; Yu, L.; Ma, Z.; Zhang, Y.; Liu, Y. An Environmental Impact Assessment of Largemouth Bass (Micropterus salmoides) Aquaculture in Hangzhou, China. Sustainability 2023, 15, 12368. [CrossRef]

3. Marcelino, K.R.; Wongkiew, S.; Shitanaka, T.; Surendra, K.; Song, B.; Khanal, S.K. Micronanobubble Aeration Enhances Plant Yield and Nitrification in Aquaponic Systems. ACS EST Eng. 2023, 3, 2081–2096. [CrossRef]

4. Shen, Y.; Chen, C.; Li, P.; Huang, X.; Li, Y. Application of a smart pilot electrochemical system for recycling aquaculture seawater. Aquac. Int. 2023, 1–17. [CrossRef]

5. Azamat, Y., & Fayzulloh, S. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Universum: технические науки, (5-10 (98)), 23-26. Url:https://cyberleninka.ru/article/n/development-of-a-wireless-water-quality-monitoring-system-for-water-treatment-facilities

6. ALIJONOVICH, Y. A. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Unversum: технические науки. Url: https://scienceweb.uz/publication/11271

7. ALIJONOVICH, Y. A. (2022). DESIGN OF WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. EPRA International Journal of Research and Development (IJRD). Url: https://scienceweb.uz/publication/11262

8. Fazliddin o‘g‘li, S. F. (2023). IOT (INTERNET OF THINGS) GA ASOSLANGAN OQAVA VA CHIQINDI SUVLARI SIFATI MONITORINGI TIZIMINI LOYIHALASH. Mexatronika va robototexnika: muammolar va rivojlantirish istiqbollari, 1(1), 414-417. Url: https://michascience.com/index.php/mrmri/article/view/140

9. Fayzulloh, S., & Salohiddin, G. U. (2023). REAKTIV QUVVAT NAZORATINI BOSHQARISH JARAYONINI MATLAB DASTURIDA MODELLASHTIRISH. FAN, JAMIYAT VA INNOVATSIYALAR, 1(1), 147-153. Url: https://michascience.com/index.php/fji/article/view/26

10. Fayzulloh, S., & Islombek, S. (2023). THE USE OF RADAR SENSORS IN MEASURING SATURATION. FAN, JAMIYAT VA INNOVATSIYALAR, 1(1), 126-131. Url: https://michascience.com/index.php/fji/article/view/23

11. Fayzulloh, S., & Sanjarbek, A. (2023). REACTIVE POWER COMPENSATION: ENHANCING POWER SYSTEM EFFICIENCY AND STABILITY. FAN, JAMIYAT VA INNOVATSIYALAR, 1(1), 132-137. Url: https://michascience.com/index.php/fji/article/view/24

12. Azamat, Y., & Fayzulloh, S. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Universum: технические науки, (5-10 (98)), 23-26. Url:https://cyberleninka.ru/article/n/development-of-a-wireless-water-quality-monitoring-system-for-water-treatment-facilities

13. ALIJONOVICH, Y. A. (2022). DEVELOPMENT OF A WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. Unversum: технические науки. Url: https://scienceweb.uz/publication/11271

14. ALIJONOVICH, Y. A. (2022). DESIGN OF WIRELESS WATER QUALITY MONITORING SYSTEM FOR WATER TREATMENT FACILITIES. EPRA International Journal of Research and Development (IJRD). Url: https://scienceweb.uz/publication/11262

15. Fazliddin o‘g‘li, S. F. (2023). IOT (INTERNET OF THINGS) GA ASOSLANGAN OQAVA VA CHIQINDI SUVLARI SIFATI MONITORINGI TIZIMINI LOYIHALASH. Mexatronika va robototexnika: muammolar va rivojlantirish istiqbollari, 1(1), 414-417. Url: https://michascience.com/index.php/mrmri/article/view/140

16. Fayzulloh, S., & Salohiddin, G. U. (2023). REAKTIV QUVVAT NAZORATINI BOSHQARISH JARAYONINI MATLAB DASTURIDA MODELLASHTIRISH. FAN, JAMIYAT VA INNOVATSIYALAR, 1(1), 147-153. Url: https://michascience.com/index.php/fji/article/view/26

Downloads

Published

2025-06-13

How to Cite

Fazliddin o‘g‘li, S. F. (2025). Smart Wastewater Management: The Role of AI Technologies. American Journal of Open University Education, 2(6), 57–60. Retrieved from https://scientificbulletin.com/index.php/AJOUP/article/view/1001

Issue

Vol. 2 No. 6 (2025): American Journal of Open University Education

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Similar Articles

1 2 3 4 5 6 7 8 > >> 

You may also start an advanced similarity search for this article.