Model flow analysis and thermal analysis display are two different concepts that involve different fields and methods.

Model flow analysis (process analysis) is a method used to study and optimize the flow processes in processes, systems, or things. It focuses on analyzing the flow path, speed, efficiency, and effectiveness to identify and solve problems in the process, and propose improvement measures. Model flow analysis is mainly applied in fields such as supply chain management, transportation planning, and engineering process optimization.

Thermal analysis display is the process of visualizing the results of thermal analysis. It mainly involves thermal analysis techniques, such as differential scanning calorimeter (DSC), thermogravimetric analyzer (TGA), etc. Through thermal analysis display, the thermal performance characteristics and trends of the sample can be visually presented to help understand the thermal behavior of the sample and provide a basis for decision-making and optimization.

Although model flow analysis and thermal analysis display are two independent concepts, they can be combined in some cases. For example, in the industrial field, model flow analysis can be performed on production processes to identify areas for improvement, and then thermal performance analysis can be performed on key links through thermal analysis to determine optimization strategies and provide visual results.

In summary, model flow analysis and thermal analysis have their own applications in different fields, providing methods and tools for analyzing and optimizing system processes, as well as understanding the thermal performance of samples.