How is the flow of fluid significant in mechanical engineering?

Designing effective and high-performing mechanical systems requires an understanding of fluid flow, an essential element of mechanical engineering. The area of fluid mechanics, known as “fluid flow,” focuses solely on the properties and motion of fluid. We must also be aware of the numerous varieties of fluids when analyzing fluid mechanics: real fluid, ideal fluid, Newtonian fluid, non-Newtonian fluid, and ideal plastic fluid comprise some of the various kinds of fluids that have been recognized in the mechanical engineering industry.

The descriptions of these fluids are as follows:

  • Real fluids can be compressed and possess viscosity and surface tension. Some examples of real fluids are castor oil and petrol.
  • Ideal fluids are supposed to be both incompressible and viscous. Some examples of ideal fluids are water and air.
  • Newtonian fluids are ones whose viscosity is independent of the rate of stress. Some examples of Newtonian fluids are gasoline, water, and alcohol.
  • Non-Newtonian fluids have a variable viscosity that can become either more liquid or more solid when subjected to force. Toothpaste, butter, and soaps are examples of non-Newtonian fluids.
  • Ideal plastic fluids are referred to whenever a particular requirement is met, such as shear stress being equivalent to the gradient of velocity and also being greater than the yield rate. An example of an ideal plastic fluid is clay.

The flow of fluid has a significant impact on how quickly a product moves via a pipe, the duration it requires for it to settle or dry out, and how quickly the fluid gets distributed into packaging components. Therefore, fluid flow is necessary to make sure fluid control procedures are safe, effective, and affordable.


 

The History of Mechanical Engineering

   

Did you know that mechanical engineering is one of the oldest branches of engineering?

There are many different branches of engineering and mechanical engineering is one of the most diverse and versatile of them. Mechanical engineering integrates the principles of physics, mathematics, engineering, design, and much more. According to Merriam-Webster, “Mechanical engineering is defined as a branch of engineering concerned primarily with the industrial application of mechanics and with the production of tools, machinery, and their products.”

The history of mechanical engineering can be traced back to the Industrial Revolution, when innovators were brainstorming ideas of more economic modes of transportation. Going back further, the screw wheel and axle originated in Ancient Greece and China and were used together in water wells as a mechanism for water retrieval. Mechanical engineering is everywhere in today’s society. When developers are introducing new types of equipment to be used in our daily lives, mechanical engineering is the backbone of their functions. For example, smartphones, trains, planes, and automobiles are developed with mechanical engineering.

Fun facts about mechanical engineering:

  • Ralph Teetor was a blind Mechanical Engineer who invented cruise control;
  • Aurel Boleslav Stodola was a professor of Albert Einstein and is known for setting in motion the study of thermodynamics;
  • Gottlieb Richard Traub is known for creating the Traub motorcycle, which is the rarest motorcycle today; and
  • Lillian Gilbreth is known as the first woman to become a member of the American Society of Mechanical Engineers and was also named the “Mother of Modern Management.”

For more information about the history of mechanical engineering, visit https://www.britannica.com/technology/mechanical-engineering.