FEA Engineer (Research)
AIC S.A
Total years of experience :5 years, 8 Months
• Spearheaded machine learning research in nTop, achieving a 20% enhancement in design efficiency and a 15% increase in operational productivity.
• Pioneered the introduction of advanced TPMS and lattice structures for 3D-printed heat exchangers, reducing manufacturing costs by 25% and improving production time by 30%.
• Orchestrated the automation of key engineering processes using Python, boosting project engagement by 45% and enhancing proficiency in ANSYS software suite by 30%.
• Directed the full cycle of a project enhancing plate heat exchangers airfoil drag reduction using ML and ANN in Python, achieving a 35% increase in flow efficiency through nTop and ANSYS Fluent integration.
• Collaborated closely with various departments to develop and implement tools that streamline analysis and workflow processes, significantly easing cross-departmental operations and enhancing project outcomes.
• Maintained strict adherence to ASME standards in all designs, resulting in a 100% compliance rate and contributing to a 13% improvement in production workflow efficiency by applying DFM, DFT, and DFA principles.
1. Directed comprehensive thermodynamic analysis of heat exchange systems, achieving a 15%
increase in system performance and a 20% boost in operational efficiency through identification
and implementation of critical improvements.
2. Performed advanced material property assessments under high-temperature scenarios,
leading to optimized material selection that enhanced performance durability by 25% in extreme
operating conditions.
3. Synthesized and published experimental findings that provided pivotal insights, influencing
industry best practices and contributing to the academic community’s understanding of thermal
systems’ efficiency.
1. Engineered an industrial drone using Solidworks, focusing on aerodynamic efficiency.
2. Enhanced drone deployment and operational effectiveness in industrial settings.
3. Mastered product development cycles and alternative methodologies, leading to a 25%
reduction in time-to-market for industrial prototypes. methodologies.
1. Instituted new tightening torque standards for flange connections in accordance with DIN and
BS, improving assembly time by 15% and reducing maintenance downtime by 20%.
2. Devised a trolley system for heavy flange transport, significantly reducing time and cost
1. Drafted and revised technical drawings across various projects, ensuring compliance
Thesis: CFD analysis on investigation of the fluid flow around real wheels and tires
Thesis: Numerical analysis of a car spoiler.