What Is Computer Aided Engineering And Computational Fluid Dynamics?

Computer Aided Engineering (CAE)

CAE is the broad use of computer software with the aim to aid engineering tasks. It is a broad field that involves computational fluid dynamics, finite element analysis, optimization and multibody dynamics. Software tools developed to support the activities are known as CAE tools and they can be used in different application, including analyzing robustness and also performance of assemblies and components.

Computer aided design has indeed revolutionized modern engineering as it allows easier development of products and management integration of the same. It has also made modeling greater and offers basis for virtual networking. In the engineering world, the design is used widely to develop products to meet consumer expectations. It is this knowledge that makes engineering students and professionals important because of the benefits they bring to the engineering workforce.

Using computer aided engineering designs can be simulated in all kinds of scenarios without any physical change to the model. The technology is therefore widely applied to engineering applications. It comes with drawing benefits, project management benefits and networking benefits as well. It is applied to fields like aviation, space, shipbuilding and automotive industries. Computer aided engineering systems are supportive to businesses because they can place information views into the business process and make reference architectures useful especially when it comes to manufacturing models and products.

Computational fluid dynamics (CFD)

This is a discipline that falls under computer aided engineering and is used to engineer products and process designs as well as fabricate and analyze all elements involved in the processes. The technology also falls under fluid mechanics that rely on numerical methods and algorithms to analyze and solve problems that are related to fluid flow as well as heat transfer. Computational fluid dynamics are made up of three phases:

· Pre-processing that defined computation fluid dynamics models that include physics environmental factors, geometry and boundary conditions

· Analysis which offer solution of transport equation using the computational fluid techniques

· Post processing which involves results using visualization tools

CFD started way back in the 1960s with the first successes becoming prominent in 1970s. In services industry it took effect in the 1980s and the industry significantly expanded in the 90s. CFD packages continue to develop and significant changes are definitely expected in the future. The knowledge on how fluid flow and the quantitative effects of solids that are in contact helps:

· Architects and building service engineers to provide safe and comfortable human environments

· Power plant designer to achieve maximum efficiency and also reduce pollutant releases

· Chemical engineers in maximizing yields from processing equipment and reactors

· Designers of marine, air and land vehicles to achieve maximum performance at minimum costs

· Safety engineers and risk-and-hazard analysts to make predictions of the damage extent of structures, human beings, vegetation, animals and even equipment as a result of blast waves, explosions and fires

The flow simulation also proves helpful to the metropolitan authorities in determining pollutant emissions, meteorologists in foretelling water and wind current, petroleum engineers in designing oil recovery strategies among many other applications.

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