Conclusion

In this project, we developed an efficient tool for calculating view factors in the context of radiative heat transfer. By applying the ray-tracing method and optimizing calculations using the BVH method, we significantly improved the efficiency and accuracy of the simulations. These advances will accelerate thermal studies and improve predictions in various applications, ranging from building design to the analysis of complex thermal systems. Our primary objective was to calculate the view factors and increase precision using ray tracing method. This project lays the groundwork for future developments that could integrate even more advanced methods and sophisticated visualization tools for more detailed thermal analysis. We should not forget the presence of obstacles that play an important role in wasting a large amount of heat, and therefore working on the latter is of interest to many people to innovate very suitable methods to exploit the greatest amount of energy.

This project has provided me with a set of knowledge and skills that have been and will continue to be valuable in the future. Working on the same GitHub repository with colleagues on different projects taught me the importance of clear issue tracking and code reviews. Using branches and pull requests helped maintain a clean and organized codebase, making it easier to understand, modify, and explain any code snippet to the recipient.

Finally, it can be said that working on this project has led to significant results in heat transfer through radiation. This is clearly shown by the examples we provided and the small margin of error achieved. We should also remember the long-term goal, which is to build on what we have accomplished in this [ARTICLE]. Therefore, the progress of this project will depend on the future results we present, which may influence and contribute to the project that the Hidalgo2 Group and partner Cemosis are working towards.