Diane Scoboria is a dedicated Research Assistant at National Cheng Kung University, where she has honed her engineering expertise through both part-time and full-time roles over the past year. With a strong foundation in aerodynamics, Diane is currently focused on investigating low Reynolds number aerodynamics,...
Diane Scoboria is a dedicated Research Assistant at National Cheng Kung University, where she has honed her engineering expertise through both part-time and full-time roles over the past year. With a strong foundation in aerodynamics, Diane is currently focused on investigating low Reynolds number aerodynamics, a critical area in fluid dynamics that has significant implications for various engineering applications, including aerospace and automotive design. Her work primarily revolves around examining laminar separation bubbles on a series of teardrop cylinders, employing advanced techniques such as oil film visualization and surface pressure measurements to gather precise data.
Diane's proficiency in MATLAB is instrumental in her research, allowing her to conduct comprehensive data analysis and visualize complex aerodynamic phenomena. Her experience with computational fluid dynamics (CFD) tools like ANSYS further enhances her ability to model and simulate airflow patterns, providing valuable insights into the behavior of fluid flow around objects at low speeds. Additionally, her skills in 3D design using software such as Catia and Solidworks enable her to create detailed models that support her experimental investigations.
Beyond her technical capabilities, Diane also brings strong staff management and financial oversight skills to her role, ensuring that research projects are executed efficiently and within budget. Her commitment to advancing knowledge in aerodynamics, combined with her hands-on experience in wind tunnel testing, positions her as a valuable asset to the research community at National Cheng Kung University. As she continues to explore the intricacies of fluid dynamics, Diane is poised to contribute significantly to the field and inspire future innovations in engineering.
