Chao Gong Livres

Focusing on fast winding-based discharge strategies for permanent magnet synchronous machines in electric vehicles, the book presents a systematic exploration stemming from the author's Ph.D. thesis. It covers injury hazards in crashes, high-voltage issues, and develops various winding-based discharge techniques. The selection principles for effective discharge methods are discussed, culminating in a conclusion that summarizes the findings. This work serves as a valuable reference for technicians and scholars in electrical engineering, detailing professional knowledge in the field.

In this study, a conical-orifice injector nozzle was used. A sequence of mathematical formulae was used to guide the numerical simulations for the internal nozzle flow and spray formation. CFD (Computational Fluid Dynamics) was implemented to study the behaviors of the internal nozzle flow and the corresponding spray characteristics. Specifically, the effects of two kinds of remedies (Re-meshing Technique and Linear Interpolation Technique) on mesh deformation were compared. A more complete numerical injection model was introduced to resolve the problem of the needle opening and a detailed comparative investigation was performed pertaining to the effects of the injection process at low needle lifts on the follow-up dynamic simulation processes. In addition, an external library concept was introduced to link the process of the internal nozzle injection with the formation of spray. Comparative dynamic simulations were performed under a double-axis system. Based on the more complete numerical injection model, more details about the dynamic behaviors of the nozzle-flow simulation and the spray formation can be obtained. Furthermore, the behaviors of different potential substitute diesels have been thus investigated through the application of all numerical models that have been improved.