Development of temperature distribution simulation software inside solid shells using a combination of AR and CFD techniques

Augmented reality is one of the new technologies in recent decade that has appeared especially in mobile devices. In augmented reality, virtual objects are placed in a real environment, next to other real objects. Another reason for the importance of augmented reality is the implementation of augmented reality applications on mobile and personal devices such as smartphones and tablets. The integration of augmented reality with a numerical simulation method such as computational fluid dynamics provides a cognitive, scientific and efficient tool for expert and non-professional users to analyze practical problems. In addition, using computational fluid dynamics techniques and an augmented reality-based system, engineering analysis and simulation results are obtained directly on real-world objects, resulting in a better understanding and relationship between the simulation results and the world. It becomes real. In this research, the combination of augmented reality and computational fluid dynamics method has been used to implement an Android software to simulate the thermal changes of solids with different materials over time.