CFD Consulting Services
Experienced in Computational Fluid Dynamics Consulting Services since 2013 for various industries!
What is CFD Analysis?
CFD stands for Computational Fluid Dynamics, which is a numerical method to solve fluid dynamics and heat transfer problems to simulate real-world problems such as optimizing design, finding a root cause of a problem, or proofing concepts. This method has been used in various industries and become a essential tool for engineering analysis.
CFD Consulting
Since 2013, we have been a consulting Company at the forefront of Computational Fluid Dynamics consulting as simulation expert, with commercial, opensource, or in-house software. Our expertise helps businesses leverage the full potential of CFD technology to drive innovation and efficiency.
Whether you’re in automotive, aerospace, energy, or any other industry, our experienced engineers will deliver CFD consulting services solution that enhance your operations and decision-making.
Our Portfolio on Flow Analysis and Heat Transfer Analysis
Our portfolio showcases a wide range of expertise in analyzing fluid flow and heat transfer across various industries. From optimizing industrial cooling systems and enhancing heat exchanger efficiency to evaluating aerodynamic performance and thermal management, we provide solutions that drive innovation and performance. Our projects have supported advancements in energy systems, manufacturing processes, and product designs, utilizing advanced numerical methods and simulation tools. With years of experience, we ensure accurate, reliable insights tailored to meet specific engineering challenges.
Computational Fluid Dynamics Solvers
Standard Solvers
RANS, DES and LES turbulence, combustion, incompressible and compressible, low and high-speed, aero-acoustics, multiphase mass momentum and heat transfer, Lagrangian and Eulerian, volume of fluid (VoF), melting and solidification, chemical reactions, sedimentation
Multi-physics and multi-discipline
aero- vibroacoustics, fluid-structure interaction, 1D-3D systems coupling
Meet Our Lead Engineer
Caesar Wiratama
Lead Engineer | 2013-Present
With over a decade of experience in the CFD analysis field, Caesar has developed and refined countless CFD consulting service applications across various industries, as a freelancer or works as a team.
CFD Consulting Rates
Our CFD consulting service rates are designed to provide flexibility and value to meet the diverse needs of our clients. Whether you require a one-time simulation or ongoing project support, our pricing structure is tailored to the scope, complexity, and timeline of your project. We offer competitive hourly or project-based rates, ensuring transparency and alignment with your budget. With over a decade of experience in CFD and expertise in OpenFOAM, we deliver high-quality simulations for wide range of industries. Contact us to discuss your project requirements and receive a customized quote.
SOFTWARE PIRACY RISK!
Do not jeopardize your company’s reputation or research by using pirated software (Cracks) or student (free version) software for your commercial activities or academic publications!
Use official licenses for your company, or choose CFD consulting services consultant with official licenses to avoid significant risks in the future. We use opensource software such as OpenFOAM and can also works with commercial software such as Hexagon, or ANSYS if your company use it.
Related search:
Popular topics in simulation applications span a wide array of industries and technologies. Common searches include airfoil aerodynamics, UAV performance optimization, jet fighter design, and building airflow analysis. Other areas of interest involve racing car and motorsport aerodynamics, cyclone separator efficiency, mixing tank performance, and heat exchanger optimization. Additionally, electronics cooling, PCB thermal management, combustion chamber design, water intake systems for pumps, and turbomachinery efficiency are frequently explored. These topics reflect the diverse needs of industries leveraging simulation to enhance design, efficiency, and performance.
Thermal Management Analysis for PCB Cooling
Thermal management analysis is vital for ensuring the efficient cooling of printed circuit boards (PCBs) in electronic devices. By using Computational Fluid Dynamics we can simulate heat dissipation, airflow patterns, and temperature distribution, engineers can identify potential hotspots and optimize component placement and cooling strategies. These analyses evaluate the effectiveness of heatsinks, fans, and other cooling mechanisms, ensuring reliable performance under varying operational conditions. Whether for consumer electronics or industrial applications, accurate thermal modeling enables the development of robust PCB designs that prevent overheating, enhance lifespan, and maintain optimal functionality.
Airflow and Thermal Analysis in Building Design
Advanced airflow and thermal modeling techniques are essential for optimizing building performance. By simulating air circulation using Computational Fluid Dynamics, temperature gradients, and ventilation effectiveness, these analyses help improve occupant comfort and energy efficiency. Engineers and architects can evaluate the influence of natural air movement, mechanical systems, and external weather conditions on indoor environments. Additionally, such simulations are crucial for assessing safety measures, such as smoke dispersion and emergency evacuation strategies. From designing residential complexes to large industrial facilities, these tools provide valuable insights to create functional, sustainable, and well-optimized structures.
Performance Analysis for Pumps and Compressors
Performance analysis is essential for optimizing the efficiency and reliability of pumps and compressors. By simulating fluid flow using Computational Fluid Dynamics, pressure changes, and thermal effects, engineers can assess operational behavior under different conditions. These studies help in identifying issues such as cavitation, pressure losses, and inefficiencies in design. Advanced modeling techniques enable the optimization of impeller geometry, casing design, and flow paths to achieve maximum performance. Whether in industrial processes, water management, or energy applications, these insights ensure pumps and compressors operate efficiently, reducing energy consumption and enhancing durability.
Aircraft aerodynamics, jet fighter, racing car, urban planning, vehicle aerodynamics, motorsport, sporting goods aerodynamics, bus, train, Cyclone separator, mixing tank, heat exchanger, Building HVAC, Cyclone separator, Valve, Combustion chamber, pump water intake, wind turbine, marine propeller, water turbine, Hull drag and stability,
Others: CFD Freelance, OpenFOAM Consulting, product design for startup.