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Education

Carleton University | Bachelor’s Degree

Mechanical Engineering - With High Distinction

Technical Skills

  • Mechanical Design

  • Finite Element Analysis

  • Computational Fluid Dynamics

  • Fusion 360

  • SolidWorks​

  • C++

  • Python

  • Arduino​

  • Robotics and Controls​

  • Active Listening

  • Effective Written and Verbal Communication

  • Interpersonal​

  • Microsoft Office Suite

Work Experience

June 2023 - Present

Mechanical Design Engineer in Training

Ontario Power Generation (OPG), Pickering, ON

  • Collaborated with cross-functional teams (design engineers, operations, and System Engineers) to complete various plant modifications and resolve work orders, leveraging active listening and three-way communication to achieve a 95% on-time delivery rate.​

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  • Led a design team, delivering design requirements, mechanical drawings, wiring diagrams, and installation plans for a critical modification project, in accordance with the Engineering Change Control (ECC) process, ensuring 100% of deliverables were submitted on time.

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  • Performed mechanical design calculations to determine the weld strength and internal stresses of lifting lugs for nuclear waste transportation packages, ensuring compliance with relevant safety factors and below-the-hook lifting standards (ASME BTH-1), resulting in zero lifting-related failures during handling operations.

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  • Developed 3D CAD models in SolidWorks to visualize building design concepts, referencing multiple structural and component drawings, which improved design review efficiency and reduced approval time by 15%.

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  • Authored and reviewed design documents by applying various CSA, ASME, ASTM, and NBC standards, ensuring 100% regulatory alignment with various design and nuclear requirements.

Accessible Autonomous Vehicle                

September 2022 - April 2023

Carleton Universty, Ottawa, ON

  • Collaborated with a team on utilizing LIDAR, a camera, RADAR, and GPS (and fusing the acquired data from the vision system and sensors) to design an autonomous vehicle for people with disabilities.

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  • Managed the financial aspects of the project, including budgeting, writing funding applications, and approving and documenting purchases.

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  • Scheduled and led team alignment meetings to ensure that each team was on track with the project deadlines, enabling me to develop my project management skills.

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  • Worked on the guidance, navigation, and controls team to implement the YOLO v5 object detection algorithm for the vision system of the vehicle.

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  • Modeled the steering system of the autonomous vehicle, which involved mapping the linear velocity of the linear steering actuator to the steering angle, to develop a PID controller and implement the pure pursuit steering algorithm.

Professional Engineering Year Intern

May 2021 - May 2022

Ontario Power Generation (OPG), Pickering, Ontario

  • Ensured full alignment with CNSC and internal nuclear safety standards by coordinating the review and closure of 50+ Station Condition Records, resulting in a 40% reduction in resolution time and achieving zero overdue corrective actions.

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  • Presented an Instrument Air design engineering change package to 5+ stakeholder groups, breaking down complex technical details into clear, actionable decisions and secured 100% stakeholder approval.

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  • Prepared tie-down calculations to show that radioactive waste packages would not topple during transportation by considering the accelerations and forces the packages experience en route to waste facilities, with a 100% success rate.

I-CUREUS Undergraduate Researcher

September 2020 - April 2021

Carleton University, Ottawa, ON

  • Supported in conducting droplet dispersion analysis of bypass adapters for mechanical ventilators, simulating patient breathing cycles and tracking droplets with a high-speed camera and shadowgraph imaging, generating data to validate infection-control designs.

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  • Gained direct experience with ANSYS CFD, completing multiple modeling tutorials (e.g., butterfly valve flow analysis) to build foundational skills in fluid flow simulation and post-processing.

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  • Studied the Unsteady Reynolds-Averaged-Navier-Stokes (URANS) approach in analysing droplets dispersed by breathing, coughing, and sneezing while wearing mechanical ventilators, providing quantitative insights into airborne transmission distances, supporting safer clinical design decisions.

Residence Peer Conduct Board Member

September 2019 - April 2021

Carleton University, Ottawa, ON

  • Collaborated with a team of five board members in determining effective sanctions for students who transgress the rules of the school’s residence by applying my excellent listening and inter-personal skills during discussions.

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  • Utilized my communication and problem-solving skills during team deliberations to generate appropriate sanctions as well as effectively pass across ideas to other members of the team.

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  • Learned how to apply active listening skills while simultaneously taking detailed notes during team meetings.

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