Projects
Data Analysis and Tool Development for Knockin Calculation
In this project, I developed a tool using Python and Bash to bypass a calculation problem related to the knockin condition in steam generators. By implementing relevant equations and algorithms, I was able to significantly improve workflow efficiency, reducing project completion time. The tool allows for graphical visualization of results, facilitating better decision-making and analysis in engineering contexts. This project exemplifies my ability to combine theoretical knowledge with practical application to solve complex engineering problems.
Enhancing the efficiency and performance of the swirl vane separator in SG.
In this project, I spearheaded efforts to optimize the performance of swirl vane separators (SVS) within steam generators (SG). Utilizing the Buckingham Pi theorem, we conducted dimensional analysis to identify key dimensionless parameters governing SVS behavior. Subsequently, we developed a mathematical model to assess the impact of design and operational variables on separation efficiency, including parameters like swirl vane angle, separator diameter, and gas-liquid flow rate. Through a structured methodology encompassing literature review, analysis, and optimization, we provided valuable insights for enhancing SVS efficiency in industrial applications, demonstrating my capacity to bridge theoretical concepts with practical engineering solutions.