Gokul G FEA Engineer, CAE Engineer
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With a Master's degree in Engineering and extensive experience in device design, product development, and FEA, I bring a wealth of expertise to the table. My proficiency in FEA software, including Structral Analysis (Ansys Mechanical )and Computational Fluid Dynamics (CFD), has been instrumental in guiding design refinements and optimizing product performance. My commitment to excellence in engineering, coupled with my strong communication and leadership skills, positions me as a valuable asset in teaching and mentoring aspiring engineers. I am passionate about sharing my knowledge and experiences to inspire the next generation of engineers and contribute to their professional development.

Subjects

FEA Beginner-Expert
Computational Fluid Dynamics (CFD) Beginner-Intermediate
Ansys Mechanical Beginner-Intermediate

Experience

FEA Engineer (Jun, 2024–Present) at EGR Automotive

Working as FEA engineer to conduct various structural analysis of vehicle parts to study the performance of structures. Extensive use of Ansys mechanical to conduct Static Structural analysis, Explicit Dynamic Analysis, Modal Analysis and more.
Product Development Engineer (Mar, 2021–Dec, 2023) at Qheart Medical, Brisbane

Product Development Engineer to develop innovative intra aortic device to mitigate aortic stiffness. Developed test rigs and conducted intensive testing to prove the concept and take the device through to animal studies. Developed valuable test data to public in various conferences such as IEEE.
Mechanical Engineer (Mar, 2019–Mar, 2021) at Shapeair,Brisbane

Research and Development on air movement products. Computational Fluid dynamics using Ansys on projects to study performance of air movement products. Estimation.

Education

Computational Fluid Dynamics using ANSYS (Jun, 2021–Dec, 2021) from Cornell University
Masters in Petroleum Engineering (Feb, 2014–Feb, 2016) from Curtin University of Technology Western Australia
Mechanical Engineering (Jun, 2009–Jun, 2013) from Kerala University, Trivandrum

Fee details

AU$40–50/hour (US$26.32–32.89/hour)

Courses offered

Fundementals of Computational Fluid Dynamics using ANSYS
- AU$2500
- Duration: 12 Weeks
- Delivery mode: Online
- Group size: Individual
- Instruction language: English, Malayalam
- Certificate provided: No
The "Fundamentals of Computational Fluid Dynamics using ANSYS" course offers a comprehensive introduction to the principles and applications of computational fluid dynamics (CFD) with a focus on utilizing ANSYS software. Designed for engineers and students alike, this course provides a solid foundation in understanding fluid flow phenomena and equips participants with the necessary skills to solve real-world engineering problems.

Throughout the course, participants will delve into the core concepts of CFD, starting with an exploration of fundamental fluid dynamics principles. They will gain insight into the behavior of laminar and turbulent flows, understanding the underlying mechanisms and their implications for engineering analysis. Special emphasis will be placed on practical applications, with hands-on exercises using ANSYS software to simulate and analyze fluid flow scenarios.

Key topics covered in the course include:

1.Introduction to Computational Fluid Dynamics (CFD):
2.Laminar and Turbulent Flows:
3.Rotary Machinery Flow:
4.Compressible Flow:

By the end of the course, participants will have acquired a solid understanding of the fundamentals of CFD and gained practical experience in using ANSYS software for engineering analysis. Whether aiming to enhance their skills for academic research or professional practice, participants will be well-equipped to tackle complex fluid dynamics problems and contribute effectively to engineering projects across various industries.
FEA Mechanical Static Structural Analysis
- AU$3000
- Duration: 12 Weeks
- Delivery mode: Online
- Group size: Individual
- Instruction language: English
- Certificate provided: No
This course covers the physics of a static structural analysis and practical examples of structural analysis. It covers geometry refinement, meshing, connections contacts and analysis settings and post processing.
This should prepare you for conducting static structural analysis.