Calculation of the Energy of a Two-Circuit Solar System with Thermosiphon Circulation Based on the Internet of Things

Abstract

AbstractThe article describes the calculation of the energy of a two-circuit solar system with thermosiphon circulation based on the Internet of Things. A new design of a flat solar collector has been developed, as well as a two-circuit solar installation with thermosiphon circulation. A controller capable of controlling the current temperature of the solar thermal system has been developed to control the solar system. For this purpose, the proposed measurement system uses temperature sensors (DS18B20 Dallas) using 16 wires. With the help of temperature sensors and the corresponding software, you can monitor the temperature level. The use of 4 digital sensors significantly improves the performance of system management and increases the speed of data processing. The possibilities of configuring sensors for Arduino platforms, as well as a solar collector control scheme, were considered. This article scientifically analyzes the operation of a new controller for controlling the solar thermal system using 6 digital temperature sensors using the Arduino platform to determine the control of the entire solar thermal system. The most profitable use of solar collectors in the industry is to replace human intervention with wireless sensor networks. A standard solar collector system consumes an average of 30% of the heat due to poor management and configuration. Our monitoring and control system makes it possible to increase the efficiency of heating industrial and domestic premises using solar collectors for hot water supply.KeywordsSolar collectorControllerArduinoMonitoring