Simulation of van der Waals liquid droplets within a hot air atmosphere using the smoothed particle hydrodynamics method

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Advances in understanding mass and heat transfer under specific conditions: The study provides detailed insights into how mass and heat transfer occur in a liquid droplet surrounded by hot air in microgravity. These conditions are relevant for various industrial and scientific applications, such as materials manufacturing, medicine, food engineering, etc. Applications in space and microgravity technology: Research in microgravity is essential for the development of space technologies, and understanding mass and heat transfer processes in such environments is crucial for designing systems and experiments in space. Improvement of numerical simulation models: The use of Smoothed Particle Hydrodynamics (SPH) and the inclusion of an adaptive scheme represent an advancement in numerical modeling of these systems. This may have broader applications in other engineering fields and materials science. Relevance to process engineering and materials technology: Understanding mass and heat transfer processes in specific environments can lead to improvements in materials manufacturing and optimization of industrial processes.

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