Automated Water Tank Monitoring System

$PPTXTitle. Module: Fundamentals of Computing. AUTOMATED WATER TANK MONITORING SYSTEM USING PH AND WATER LEVEL SENSORS O O Sensors continuously monitor pH and water level.

$PPTXTitle. Automated water tank refills and stops automatically using smart sensors..

$PPTXTitle. Inefficient water use: Traditional tanks do not monitor water level accurately, leading to overflow or dry-out situations. The water stored inside tanks often has an unbalanced pH level, making it unsafe to use. There is no automatic system to monitor water level, control filling or washing ,and check pH quality at the same time..

$PPTXTitle. Hardware components: -ESP32 microcontroller board -Ultrasonic sensor -pH sensor module -Relay module - water pump -Jumper wires, resistors, power supply Software requirements: -Arduino IED -Embedded C/C++ Programming -IoT dashboard(Blynk).

00,. oo. $PPTXTitle. Relay module. Ultrasonic sensor.

$PPTXTitle. The system uses two primary sensors: a Water Level Sensor and a pH Sensor. The Water Level Sensor detects the height of water in the tank. It sends analog signals to the microcontroller, which interprets the readings and decides whether to activate or deactivate the pump. The pH Sensor continuously measures the acidity or alkalinity of the water. If the pH value goes beyond safe limits, it can alert the user or trigger corrective actions. Together, these sensors form the backbone of the system, providing accurate data for efficient water management and safety assurance...

$PPTXTitle. This automated system contributes significantly to environmental sustainability. By preventing water overflow and leakage, it minimizes water wastage. The continuous monitoring feature ensures that only clean and safe water is stored, promoting healthier living standards. Moreover, the reduced need for manual supervision saves both electricity and human effort. Implementing such automated solutions on a larger scale can contribute to sustainable resource management and conservation of water, one of the world’s most vital natural resources. ..

$PPTXTitle. •. The water level sensor (ultrasonic/ hydrostatic pressure) and pH sensor sends readings (like distance or pH value) to the ESP32 microcontroller. The ESP32 has built-in memory (RAM and Flash) where it temporarily stores the current water level, pH values, time stamps, control status (pump ON/OFF). This data is usually held only while the device is running- it resets if powered off The ESP32 sends data via Wi-Fi to the BLYNK cloud. The cloud stores readings continuously and allows you to vies real-time data on your phone (BLYNK app) and see historical graphs, Analyze trends over hours/ days/ weeks. Data is stores automatically in the cloud database. You can download or visualize: -Water level history -pump activity -pH variations over time.

$PPTXTitle. INPUT Ultrasonic Sensor / Pressure Sensor pH Sensor Input PROCESS ESP32 Blynk Cloud Process OUTPUT Blynk App Reata Motor (Pump) Output.

How does it work?.

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