Why Join BroadTech Engineering?
* Be at the Forefront: Work on cutting-edge simulation projects that drive innovation and sustainability.
* Grow with Us: Take your simulation skills to the next level with real-world exposure, mentoring, and development support.
* Work That Matters: See the real impact of your simulation work in helping industries design better, safer, and more efficient systems.
* Flexible Culture: Hybrid work options and a collaborative team environment where your voice is heard.
* Recognition & Ownership: Your technical expertise is valued, and you’ll have the autonomy to lead your own projects.
BroadTech Engineering (https://broadtechengineering.com) is a Leading Engineering Services & Consultancy/Consulting Firm/Company based in Singapore
Our core service offering is in engineering simulation analysis and computational modeling of our client engineering applications, typically with the purpose of validating new designs, improving design performance, or identification of failure root cause. Since then, BroadTech Engineering has grown to be a reputed Engineering Simulation Services Consulting Firm.
our key service areas are1. Engineering Analysis (CFD, FEA, Piping CII etc.)2. Produc design & development, Project Management3. Professional Engineer endorsement
CFD Engineering Consultant
About BroadTech Engineering
At BroadTech Engineering, we’re more than just an engineering consultancy—we’re a launchpad for CFD simulation-driven innovation. Specializing in advanced engineering simulation and analysis services, we help our clients solve complex real-world problems across industries including energy, aerospace, marine, electronics, and the built environment.
If you’re passionate about Computational Fluid Dynamics (CFD) and are looking to supercharge your career in engineering simulation, BroadTech Engineering is the place to be.
What You’ll Do
As a CFD Analysis Engineering Consultant, you’ll work on challenging and high-impact simulation projects that span the full spectrum of fluid flow, heat transfer, and multi-physics problems. You will:
Perform CFD simulations using commercial and open-source tools (e.g., ANSYS Fluent, CFX, STAR-CCM+, OpenFOAM).
Support clients by delivering technically sound, actionable insights derived from CFD models.
Develop and validate computational models through experimental correlation and sensitivity studies.
Communicate findings in clear, technical reports and client presentations.
Collaborate with multidisciplinary teams and mentor junior engineers when needed.
Stay up-to-date with the latest developments in CFD methods, turbulence modeling, and solver technologies.
Who You Are
Bachelor's, Master’s, or Ph.D. in Mechanical, Aerospace, Chemical Engineering, or a related field.
2+ years of hands-on CFD experience in a consultancy or R&D setting.
Strong grasp of fluid dynamics, heat transfer, and turbulence modeling.
Proficiency in meshing tools, solver setup, and post-processing techniques.
Strong problem-solving, communication, and time-management skills.
Passion for continuous learning and sharing knowledge with others.
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Computational Fluid Dynamics (CFD) analysis is a branch of fluid mechanics that uses numerical methods and algorithms to solve and analyze problems involving fluid flows. By employing CFD simulation methods, engineers and scientists can simulate the behavior of fluids (liquids and gases) and their interactions with surfaces defined by boundary conditions.
Understanding CFD Analysis
At its core, CFD analysis involves the following steps:
- Pre-processing: This stage involves defining the geometry of the problem, creating a computational mesh, and setting up the initial and boundary conditions.
- Solving: The governing equations of fluid flow, typically the Navier-Stokes equations, are solved numerically over the computational domain.
- Post-processing: The results are analyzed and visualized to understand the flow patterns, pressure distribution, temperature fields, and other relevant parameters.
Applications of CFD Analysis
CFD analysis is widely used across various industries:
- Aerospace: To design and optimize aircraft aerodynamics.
- Automotive: For improving vehicle aerodynamics and engine cooling systems.
- Civil Engineering: To assess wind loads on structures and optimize HVAC systems.
- Chemical Processing: For analyzing mixing processes and chemical reactions.
- Environmental Engineering: To model pollutant dispersion and natural ventilation.
Advantages of CFD Analysis
- Cost-Effective: Reduces the need for physical prototypes and experiments.
- Time-Saving: Accelerates the design process by allowing quick evaluations of design changes.
- Detailed Insights: Provides comprehensive data on fluid behavior that might be difficult to measure experimentally.
Limitations of CFD Analysis
- Computational Resources: High-fidelity simulations can be computationally intensive.
- Model Accuracy: The accuracy of results depends on the quality of the mesh and the appropriateness of the models used.
- Expertise Required: Interpreting CFD results requires a good understanding of fluid dynamics and numerical methods.
Conclusion
CFD analysis is a powerful tool that enables engineers and scientists to simulate and study complex fluid flow phenomena. By understanding its principles and applications, professionals can leverage CFD to enhance design efficiency, optimize performance, and innovate across various engineering disciplines.
Kindly note that only shortlisted candidates will be notified.
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