Abstract

This study delves into the multifaceted realm of water quality management,
focusing particularly on urban environments where rapid urbanization and industrialization pose significant challenges to water security. Utilizing a combination of literature review, data analysis, and technological innovation, the research aims to address the pressing need for effective water quality monitoring mechanisms. The study explores the interplay of various factors influencing water quality, drawing insights from existing literature to underscore the complexity of the challenge. Moreover, it highlights the urgency of interventions to safeguard water resources and ensure the well-being of present and future generations.
Central to the research is the development and testing of a Smart Monitoring System tailored for real-time assessment of water quality parameters relevant to household use. Through rigorous methodology encompassing sensor selection, system design, testing protocols, and data analysis procedures, the study evaluates the efficacy of the monitoring system in enhancing real-time data transmission and informing decision-making processes. The findings reveal significant variations in water quality among different households, with statistical analysis indicating mean pH levels ranging from 6.8 to 7.2, indicative of slightly acidic to neutral conditions. These insights underscore the importance of technology-driven solutions in addressing water quality challenges and emphasize the potential of the monitoring system to catalyze a paradigm shift in water management practices, promoting environmental sustainability and safeguarding public health.