One of the major threats nowadays is water pollution, as drinking water is becoming increasingly contaminated and polluted. The ecosystem's life cycle is impacted by the diseases that the polluted water might spread among people and animals. Early detection of water contamination allows for appropriate action and avoiding dangerous circumstances. Real-time monitoring of the water's quality through Water Technology is necessary to ensure the supply of pure water.
As sensors, connectivity, and the Internet of Things (IoT) are developing rapidly, water pollution monitoring solutions are becoming increasingly significant these days. Lethal substances that enter water sources, including ponds, rivers, lakes, seas, and oceans, dissolve and suspend in the water, or are dumped on the bottom, causing water pollution. Water's quality and purity will decline as a result of pollution. Due to unnecessary sources of chemicals and pollutants, ensuring pure and safer water is extremely difficult. So, it is very much necessary to know your water before using them. This can be done with the help of IoT-based water technology.
Some Of The Advantages Of A Smart Water Quality Monitoring System Are:
1. It helps assess hazardous quality parameters such as microbial, chemical, and physical characteristics.
2. To identify variations in metrics that have been measured and provides prompt warning of potential threats or dangers.
3. To offer real-time analysis of the sensor data and suggest suitable corrective actions.
How To Monitor Water Quality?
Water quality can be measured using devices like probes and sensors. These devices help check several water parameters, which is essential when using water for consumption. These essential parameters can be measured from remote locations in real-time. The devices which store the data then share live data about the quality of the water body, water source, or water to a platform suite. This platform can be used by an organization or a person to ensure optimum quality of water by taking useful actions.
Some Of The Parameters Checked By The IoT-Based Water Technology Include:
1. Turbidity
The quantity of individually suspended particles in water is known as turbidity. These particles make the water appear murky or hazy because of their existence.
2. Temperature
The ability of aquatic life and its habitat to survive depends heavily on the temperature of the water. The water temperature must be closely maintained for industrial applications to ensure effective operations and enhanced output.
3. pH
A pH or power of hydrogen measurement can determine whether water is acidic or basic. Pure water has a pH of 7, although depending on topological and geographic factors, this value can change.
4. Salinity
High salt concentrations in water increase salinity. Saline water should not be used for domestic, commercial, or agricultural uses and cannot be used to make beverages.
5. Dissolved Oxygen
BOD, or biological oxygen demand, is a basic indicator of how well different microorganisms break down the water's organic components.
6. TDS
Water dissolves practically all salts since it is the universal solvent. Water's conductivity is increased by the high TDS (total dissolved salts) content, which impacts aquatic life's ability to reproduce and flourish.
Conclusion
When these parameters are checked properly with the help of IoT-based water technology, it becomes easier to perform real-time water quality monitoring. So, using the latest technologies to Know Your Water is essential. This will keep the humans healthy as they are well informed about the water quality so that precautionary measures can be taken in advance to avoid any kind of mishappening.
knowyourwaterIoT-based water technology can be used from far-off locations via advanced telematics to help you know the water quality. There is no other way to address the issue besides monitoring and preserving the best possible quality of water bodies, as freshwater supplies are depleting at an unmanageable rate. So, it's necessary to take precautionary measures in advance.
