IoT Based Smart Water Quantity Monitoring System

Published on by in Social

IoT Based Smart Water Quantity Monitoring System

Improving agricultural irrigation efficiency through smart water management is crucial for boosting crop yields while decreasing expenses and positively impacting the environment. Accurately watering plants is now possible using the Internet of Things (IoT)  Water Technology , known as precision irrigation. While the Internet of Things (IoT) is a logical choice for smart water management applications, only some necessary technologies have been fully integrated to ensure flawless operation. 

An introduction to IoT-based Smart Water Quality Monitoring (SWQM)

The Internet of Things (IoT) is revolutionizing water quality monitoring with smart systems that measure various parameters, including temperature, pH, turbidity, dissolved oxygen levels, ion diversity, and more. The primary goal of water quality monitoring is to maintain these metrics within an acceptable range. 

Physical testing using only chemicals was the standard practice for water monitoring. Various Internet of Things (IoT) smart sensors record the parameters in real time for a water quality monitoring application. 

Top five hardware components of a Smart Water Quality Monitoring System

Important tasks, including system activation, security communication, action specifications, and detection to support certain goals and actions, are managed by the hardware used in an IoT ecosystem, which comprises IoT sensors, a routing device, and servers. 

Ultrasonic sensor

As the name implies, a 40 kHz high-frequency sound wave is produced by the sensor to transmit and receive ultrasonic pulses that provide data regarding the vicinity of an item. The measuring range of this hardware is 2 cm to 4 cm, and it comes with a control circuit, an ultrasonic transmitter (the trigger pin), and an echo pin. 

pH sensor

The sensor takes readings that include the water's acidity and alkalinity levels, among other parameters. When implemented properly, a smart  Water App  can monitor activities in a wastewater treatment plant or manufacturing facility and the product's safety and quality. 

It comes with a measuring and reference electrode. The acidity of water is reduced by a factor of ten as the pH value increases because the quantity of hydrogen ions drops. 

Digital thermometer sensor

Its primary use is to find an area's relative humidity and temperature. A Negative Temperature Coefficient (NTC) measuring tool and an 8-bit microscope are included. Using the thermometer, one can find out what kinds of marine creatures can live in the water now. 

Turbidity sensor

The amount of particles in the water, or its quality, can be determined with the help of the sensor. It transmits laser beams and uses them to determine if the water is clear or hazy. Reduced marine life, reproduction, and human sickness can result from excessive turbidity. The output from the sensor might be either in digital or analog form. 

RF module

A radio-frequency (or "module") is a tiny electrical device that sends and receives radio signals. An efficient and cost-effective system based on the Internet of Things (IoT) is useful to start a conversation between two smart sensors. 

Improving water quality with the use of the Internet of Things

At last, field technicians turned to Smart Water Quality Monitoring. This system combines digital computing, internet services, communication media, and portable sensors to enable real-time water quality monitoring worldwide. 

The home, farm, aquaculture, and recycling industries found smart water quality monitoring systems highly beneficial. Also, these systems monitor how clean the water is in various bodies, such as rivers and lakes. 

The Internet of Things (IoT) networks are very secure and provide lightning-fast data transfer rates. All the problems with earlier methods are now easily remedied by the technology. 

Conclusion

Using a mix of mobile sensors, digital computers, communication media (e.g., TCP/IP protocols), and Internet services, smart water management based on the Internet of Things can be seen in real time from anywhere globally. Aesthetic issues are addressed with the Internet of Things (IoT) Smart Water Level Monitoring System. Significant advancements include reduced price, higher spatial resolution, reduced computational cost, reduced energy use, the ability to get real-time feedback, and enhanced water quality. An advantage of the Internet of Things (IoT)-based Water Technology is that it provides a sufficient supply of high-quality water to every dwelling, enterprise, etc.

Taxonomy