Importance of FEA and CFD Analysis

CFD AnalysisOnce the conceptualization and product designing is done successfully the next important step is to have the virtual prototyping. The two very important methods used for virtual prototyping are finite element analysis (FEA) and computational fluid dynamics (CFD). Use of the computational fluid dynamic which is simulation software, during the FEA analysis ensures that the project cost is reduced and the products are out in the market for sell within a short period. FEA ensures that there is less iteration in physical prototyping. Both CFD and DEA analysis are used to predict the results of the complicated real world scenario and both these analysis must be performed before the manufacturing units spend hoards of money to build the prototype of a product.

The trusted engineering firms offers these finite element analysis services – The highly specialist team of engineers with decades of experience in the field, the best support system which is very simple and uncluttered so that the clients get the best support, the solutions which are aimed at solving the specific problems and defined set of tasks. Such firms offer the CFD methods that are clear and comprehensive. The clients no matter from which manufacturing unit, are sure to get the best cost-effective consultation and CFD analysis services.

CFD Simulation and CFD Analysis Services

CFD analysis process includes analyzing the flow problem; conceptualizing and modeling the Geometry, defining input and boundary conditions; defining strategy for simulation; simulate the model with Solid Works or ANSY; observe the simulation results; compare the results; provide documentation.

If you are looking for CFD analysis and simulation services to solve multi-dimensional fluid flow and heat transfer, outsourcing is the best option. Countries like India have companies that use updated state-of-the-art methodology to offer Computational Fluid Dynamics analysis and simulation.

CFD Analysis ServicesWith the help of CFD analysis it helps offshore engineering firms to solve difficult fluid dynamic problems. They have CFD analysts who envision and analyze different flows that react against the product. They offer their CFD analysis and CFD simulation services to a range of industries such as aerospace, architectural, automotive, civil engineering, chemical processing, consumer products, HVAC, marine, power plants, oil drilling, telecommunications, semiconductors, etc.

They use standard CFD tools and software with CFD modeling solutions that offers background of overall reliability of the product, product quality, plus design concepts of turbo machinery.

Most of these companies use various kinds of software for CFD analysis and CFD simulation: CFL3D, Chimera Grid Tools, ECS, LEWICE, NX Flow, OpenFoam, Paraview, Pressmap.

Benefits of using outsourcing CFD analysis and CFD simulation services:

  • Save cost as well as time
  • Reduction of cavitations problems
  • Effective output
  • Viable design
  • Proven expertise
  • Number of methods for representing data
  • Conservation of material, resources and energy
  • Ethically stronger values towards industry, environment and society

CFD services offered by these companies include the following:

  • Aerodynamic Analysis
  • CFD Simulation Services
  • CFD Flow Modeling
  • Chemical Reactions
  • Combustion Modeling
  • Compressible Fluid Flows
  • Distributed Resistances
  • Dynamic Cell addition
  • Buckling Analysis
  • Fluid Structure Interaction
  • Heat Transfer Analysis
  • Hydrodynamic Analysis
  • Industrial Fluid Dynamic
  • Moving Mesh Analysis
  • Multiphase Flows
  • Multiple Rotation Zones
  • Rotating Machinery
  • Sliding Interfaces
  • Steady and Transient Flows
  • Turbulent Flows

You may rely on them as they follow International standards with successful implementations of CFD analysis and simulations projects. Over and above they possess enthusiastic and committed workforce to meet client’s requirements, with accuracy delivering on time. Customer’s satisfaction remains topmost priority of a trustworthy company.

Pipe Vibration Analysis with Finite Element and CFD Analysis Techniques

Pipe Vibration AnalysisFor any piping system control and prevention of piping vibrations is critical for overall success of the plant. The first thing is to identify potential vibration problems and then keep check on vibration effects in a comprehensive testing environment. This results in full-proof design because you can ensure adequate vibration-mitigation during design phase. This also means that the design will be cost-efficient since whole piping system is tested thoroughly to avoid any occurrences of failure in the future.

For example, if your piping system design is exposed to steady-state or transient vibrations then you may need to change the pipe routing and supporting structure. Also during testing in lab actual vibrations can be monitored and qualified if they meet desired loading conditions. If the vibrations still persist, then you just need to modify the operating process or modify the support for imparting better strength to the whole piping system.

To design a pipeline good knowledge of linear, non-linear, static and dynamic behavior of materials is required. Also extensive FEA analytical skills and best design practices result in most cost-effective designs which can control the vibrations. With Finite Element Analysis services and Modeling different kind of vibrations can be precisely predicted, for which necessary measures can be taken to control their effects.

For any piping system control and prevention of piping vibrations is critical for overall success of the plant. The first thing is to identify potential vibration problems and then keep check on vibration effects in a comprehensive testing environment. This results in full-proof design because you can ensure adequate vibration-mitigation during design phase. This also means that the design will be cost-efficient since whole piping system is tested thoroughly to avoid any occurrences of failure in the future.

It is critical to minimize the bends among the number of pipes involved in the system when contemplating initial layout of the piping system. Using Computational Fluid Dynamics or CFD analysis you can locate fluid forces that tend to couple into and simulate the structural vibrations. To avoid failure due to these vibrations rigid blocks can be placed close to piping bends or dampers at the discharge can be used. CFD analysis uses fluid flow models and dynamic analysis to exactly locate these vibrations, test them under given conditions and recommends possible solutions to resolve fluid flow issues in the piping system.