This post explores the steps to integrate a new heat transfer element within a Flownex simulation, enhancing thermal system management capabilities.
The heat transfer elements in Flownex replicate conduction, convection, and radiation, providing insights into the thermofluid behavior of a system. Accurately modeling complex systems requires an understanding of these elements' characteristics and functions. Flownex's advanced features enable users to conduct comprehensive thermal analyses of flow networks. The successful integration of these elements depends on a thorough understanding of physical processes and material properties to customize them according to specific project requirements.
Incorporating a new heat transfer element into a Flownex flow network involves many steps. Initially, you must select the appropriate type of heat transfer element such as Composite Heat Transfer, Surface Radiator, Convection, and Distributed Heat Source, based on the thermal process you wish to simulate. Subsequently, define the geometrical parameters and material properties that influence the heat transfer rates, such as surface area, thickness, and thermal conductivity.
The next step involves configuring boundary conditions and heat sources, which may include temperature limits, heat fluxes, or convection coefficients. Once the element is fully characterized, incorporate it into your Flownex model, connecting it with other components of the network.
The video illustrates the key steps required to integrate a composite heat transfer element into a Flownex model. It guides the setting up of geometrical parameters, material properties, and thermal boundary conditions specific to the heat transfer mechanisms in action.
Use this link to view the video on YouTube: https://youtu.be/2QGl0y5tQkM