Computational Fluid Dynamics (CFD)
Why Use Computational Fluid Dynamics (CFD)?
Computational fluid dynamics (CFD) is utilized to analyze and solve fluid flow problems, where “fluid” refers to both liquids and gases.
Environmental chambers are low-temperature refrigeration equipment primarily composed of refrigeration systems, control systems, and air circulation systems. Both the refrigeration and air circulation systems involve fluid flow issues. The use of CFD technology further enhances the performance advantages of KOMEG climatic test chambers
Reduce System Power Consumption
CFD optimizes the heat exchange process in the refrigeration system, increases air convection on the evaporator surface, improves heat exchange efficiency, and reduces the compressor's energy consumption by 8% to 10%.
Improve Temperature Uniformity
The enhancement in heat exchange efficiency and optimization of the air circulation system increases air volume by 16% to 20%. As a result, internal air circulation improves, leading to better temperature uniformity.
Optimize Equipment Structure
The application of CFD technology has facilitated improvements in the design of climatic test chambers, resulting in a 6% reduction in external dimensions and a 20% decrease in the number of parts used.