Water resource management is globally crucial as climate change and water scarcity exacerbate this issue. Ozone and telecommunication technologies are proposed as eco-friendly and efficient methods for water purification and management. Objective – By integrating ozone and telecommunication systems, the goal is to monitor water quality in real-time and implement automatic purification measures when pollution is detected. Relevance – This approach is both environmentally and economically important as it aids in addressing water scarcity issues and promotes efficient water use. Materials and Methods – Intelligent water management systems, IoT sensors, and ozonators were utilized, with their purification efficiency and limitations examined. Results – Increasing the frequency of the ozonator improved purification efficiency, while monitoring through a sensor network enabled up to 95% water conservation. The ozonator achieved 90% efficiency, enhancing the heavy metal removal process. Conclusion – Integrating ozone and telecommunication technologies allows for environmentally effective water resource management and cost reduction.

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Methods to Enhance the Role and Efficiency of Telecommunication and Ozone Technologies in Water Resource Management

  • Perizat Akylzhan,
  • Pavlan Kalandarov,
  • Janay Sagin,
  • Lyazzat Zhanbayeva,
  • Nurzhamal Ospanova,
  • Rashid Nasimov

摘要

Water resource management is globally crucial as climate change and water scarcity exacerbate this issue. Ozone and telecommunication technologies are proposed as eco-friendly and efficient methods for water purification and management. Objective – By integrating ozone and telecommunication systems, the goal is to monitor water quality in real-time and implement automatic purification measures when pollution is detected. Relevance – This approach is both environmentally and economically important as it aids in addressing water scarcity issues and promotes efficient water use. Materials and Methods – Intelligent water management systems, IoT sensors, and ozonators were utilized, with their purification efficiency and limitations examined. Results – Increasing the frequency of the ozonator improved purification efficiency, while monitoring through a sensor network enabled up to 95% water conservation. The ozonator achieved 90% efficiency, enhancing the heavy metal removal process. Conclusion – Integrating ozone and telecommunication technologies allows for environmentally effective water resource management and cost reduction.