Singapore, Singapore
I am a proud graduate of Nanyang Technological University (NTU), where I majored in Mechanical Engineering with a minor in Business. My passion lies in turning innovative ideas into tangible solutions, which initially drew me to the field of mechanical/aeronautical engineering. During my academic journey and professional experiences, I have had the privilege of working in research and development roles that allowed me to push the boundaries of engineering innovation. At Cambrian Engineering, I collaborated with a talented team to develop a new engineering method for depth measurements using advanced LIDAR and ERT technologies. This experience not only enhanced my technical expertise but also deepened my appreciation for cutting-edge problem-solving. Currently, at SLB, I am part of a dynamic team dedicated to new product development in the oil and gas industry. I am actively contributing to the development of next-generation multiphase flowmeters and exploring how these technologies can be adapted for renewable energy applications, such as geothermal systems. My ultimate goal is to create a meaningful impact on the world through the technologies and products I help design and develop. I am driven by the belief that engineering innovation can shape a more sustainable and efficient future for generations to come.
• Objective – Evaluate and design an Energy Harvesting System for IoT devices on a multiphase flowmeter. • Scope of Work – Literature Review of existing technologies, mechanical design, thermal analysis, and experimentation to access functionality.
- Created a Design Failure Mode Effects and Analysis for top-level assembly to quantify risks and solutions for mitigation. - Planned a viable Validation and Verification strategy for de-risking failure modes cost-effectively. - Designed several structural brackets through CREO. - Performed Thermal-Structural Analysis of brackets by formulating a more realistic heat convection dataset using Mathcad and applying it in a simulation study in ANSYS. - Designed a Thermal Correction Test to validate thermal simulations and gamma stability at high temperatures and pressure.
- Developed and executed a new engineering method through the use of LIDAR and ERT technologies as a cost-effective solution to conventional methods. - Managed day-to-day operations for pipe and services detection using Ground Penetrating Radar. - Business management with a broad range of clientele to address their concerns and adapt in-house method statements into practical uses. - Documented and digitally preserved archaeological sites through the use of LIDAR. - Prototyped simple PCB enclosures for manufacturing of noise and vibration sensors
Worked closely with clients to facilitate smooth running of operations in non-destructive testing operations and designed and prototyped a Blacklight measurement baseplate that eliminates human errors and saved the company about 12.7 manhours every month.
Overseas Training Programme at AMECO, learnt various skills such as wire safetying, Component removal and installation, turnbuckle fastening and many other skills on retired aircraft parts.