Reasons Why MEP Course is essential after Mechanical Course
Having a specialization after mechanical engineering has become an essential step because the industry has become divided into a set of highly specialized niches and each of these niches requires expert workforce. A consensus amongst the industry experts is that doing an MEP specialization after the mechanical course is most useful. The mechanical, electrical, and plumbing (MEP) services are very important components of construction supply chain. The design provided by the MEP expert is useful for various purposes, such as design decision making, proper documentation, performance, construction planning, cost-estimation, and so on.
Across the world, complex architecture is being designed and new structures are being built. This construction growth trend is particularly true for developing economies like India. Due to the constant construction process, the specialized workforce related to this field is always in demand. As mentioned, MEP is an important part of the construction industry and hence they too are in constant demand. Therefore, an important reason that makes the MEP course essential after a mechanical course is its ability to provide specialized knowledge and thus job opportunities.
The MEP course allows the young professionals to become well-versed in dealing with all the mechanical, electrical, and plumbing technology used during construction work. The knowledge of all these technologies will allow the individual to design a building that is both environmentally friendly and sustainable.
As can be seen, MEP engineering is an integration of three different technical branches. Therefore, to master the MEP engineering, one has to master all three of its components. Following a similar logic, all MEP engineering courses give equal emphasis on teaching all three of the components. In mechanical component, the student is given in-depth knowledge of heating, ventilation, and cooling system (HVAC). The HVAC is a sub-branch of mechanical engineering, which uses thermodynamic principles, fluid mechanics, and heat transfer to maintain a desired inner temperature. In the electrical component, the student is taught to deal with power transmission and distribution, lighting system, telecommunication, fire alarm systems, and so on. Finally, in plumbing component, the student is taught to manage/design water distribution and drainage systems, waste water treatment process, firefighting systems etc.