Thermohydraulischen

Thermohydraulischen refers to the study and analysis of the coupled behavior of thermal and fluid flow phenomena. It combines principles from thermodynamics, which deals with heat and its relation to energy and work, and fluid mechanics, which describes the motion of fluids (liquids and gases). The core idea behind thermohydraulics is that temperature variations can significantly influence fluid properties such as density, viscosity, and pressure, which in turn affect the fluid's flow patterns. Conversely, fluid motion can transport heat, leading to temperature changes within the system.

This interplay is crucial in a wide range of engineering applications. For instance, in nuclear reactor safety,