Heat Dissipation Simulation and Optimization of Subsea Motor Drive Control Module Based on ANSYS Icepak
With the continuous reduction of shallow sea oil and gas resources,the development of deep-sea oil and gas resources is the future development direction.Compared to the electro-hydraulic composite subsea control module,the fully electric subsea control module has advantages such as fast response speed,reliable power supply and agile signal feedback,which are indispensable for the development of deep-sea oil and gas resources.Therefore,the development of an fully electric subsea production control module is urgent.The subsea electronic module(SEM)and the subsea electronic drive module(SEDM)are the functional implementation parts of the fully electric subsea production control module(ESCM).The reliability of SEM and SEDM largely determines the reliability of ESCM.The functions of SEM and SEDM are mainly achieved by internal electronic components,and the reliability of electronic components is closely related to temperature.Therefore,this article uses ANSYS Icepak to conduct finite element simulations of SEM and SEDM natural heat dissipation,and optimizes their structures based on the simulation results,and the reference table for the heating power and structural material of SEM and SEDM electronic equipment was obtained,providing theoretical reference for SEM and SEDM design.
万方数据
维普
