Design and construction of a smart IOT-based load shedding system Department:Electrical Electronics Engineering By: harnubhoi Project ID: 8866 Rating: (5.0) votes: 1 Price:₦5000 Get the Complete MaterialAbstractThis project presents the design and construction of a Smart IoT-Based Load Shedding System aimed at addressing the challenges of energy management, especially in environments with unstable power supply or high energy consumption. The system is designed to automatically monitor electrical parameters such as current and voltage in real-time, analyze usage patterns, and intelligently shed or restore electrical loads based on predefined thresholds. At the heart of the system is the ESP32 microcontroller, which receives input from current and voltage sensors and activates relay switches to disconnect non-priority loads when consumption exceeds safe limits. The system integrates Internet of Things (IoT) technologies by leveraging cloud storage and mobile/web applications for data logging and remote monitoring. Real-time consumption data is uploaded to platforms such as Firebase, enabling users to access historical logs, receive overload notifications, and manually control load priorities from anywhere. The LCD display also offers local status feedback. The combination of hardware and software components such as ACS712 sensors, 12V relays, mobile interface, and cloud connectivity, ensures an efficient, responsive, and user-friendly solution to load shedding. This project contributes significantly to smart energy management and demonstrates how IoT can be harnessed to optimize power usage, reduce energy waste, and provide transparency to consumers....Preview Download Preview +Other Electrical Electronics Engineering project topics and materials you might be interested in»The construction of a 2kva automatic voltage regulator (AVR)»Generation of Constant Power Supply from a DC Source»Design and construction of a digital clock with calendar»Construction of digital AC power controller»A remote controlled AC fan speed regulator using discrete integrated circuit»Remote controlled antenna»The construction of automatic voltage inverter and a battery charger»Design of 2.5kw automatic voltage regulation with seven segment display»Design and construction of 5kva power inverter»Construction of a battery charger»Construction of a car touch intruder alarm»Design and construction of 2KVA inverter»Simple sensitive touch alarm»Design and installation of 200 WATT solar power system»Design and construction of an automatic change over switch