Smart Temperature Dependent Cooling of Solar panel Using Arduino

Abstract

This project involves the integration of various hardware components, including an Arduino board, a temperature sensor, an LCD display, a relay module, a CPU fan, and an ESP8266NodeMCU. The goal is to create a system that can monitor temperature, display information on an LCD screen, a relay to control fan, a CPU fan, and upload collected data to a web server for remote access and analysis. The temperature sensor is connected to the Arduino board to measure the ambient temperature. The LCD display provides real-time temperature readings and system status information. The relay module enables the Arduino to control an external device based on predefined temperature thresholds. Additionally, a CPU fan is integrated to manage the temperature of a system component. This enhances the overall system stability and efficiency. The ESP8266 Node MCU, acting as a Wi-Fi Module, connects the system to the internet. It gathers temperature data from the Arduino and periodically uploads it to a designated web server via HTTP or other suitable protocols. This enables users to monitor temperature trends and system performance remotely, providing insights into environmental conditions and operational effectiveness. The integration of these components involves programming the Arduino and Node MCU using relevant libraries and languages such as c / c++ and Arduino IDE. The Arduino code manages data collection, LCD display, relay control, and fan speed regulation, ensuring seamless coordination between the components. The Node MCU code establishes a connection to the Wi-Fi network, formats and transmits data to the web server, and handles any necessary security considerations. Keywords: CPU Fan, Arduino, solar panels, Templates, Journals.