Why You Should Go For Process Engineering Specialization After Graduating In Chemical Engineering?

As a Chemical Engineer, an exciting career awaits you with ample employment opportunities in diverse segments and industries. Since a Chemical Engineer is adept in the innovation, design and transformation of chemicals and raw materials into functional and marketable forms, hence, they are much sought after in a myriad of fields such as research, design, development and consulting. Depending upon one’s individual preference and interest, one can seek employment across industries as varied as manufacturing, pharmaceuticals, petrochemicals, polymers, fertilizers, healthcare, plastic & metals, pulp & paper, electronics, food & beverages, environmental health & safety, biotechnology, nanotechnology and energy amongst others.

While a degree in Chemical Engineering will certainly endow you with the rudimentary principles of chemistry, physics, microbiology, biochemistry, applied mathematics and economics that are instrumental in the design of processes that convert living cells, microorganisms, energy etc. into useful and economically viable forms and products, yet it may not be enough if you want to outperform your competition to bag the dream role of your choice. It is important that you seek the proficiency of specialized courses after Chemical Engineering such as Process Engineering if you want to create a competitive edge for yourself in the rapidly evolving and highly demanding job market of today.

What is Process Engineering?

Process Engineering is a branch of engineering that impacts chemical, physical and biological processes across a wide range of industries such as chemical, petrochemical, pharmaceutical, agriculture, food and biotechnology. The niche field is aimed towards the design, implementation, operation, control and optimization of industrial processes with particular emphasis on the continuous ones. Synthesis of energy recovery networks/reactor networks/distillation systems, process control via model predictive/nonlinear/robust control, scheduling of process networks, real-time optimization and detection of faults are few of the areas that fall under the purview of this broad domain.

Significance of Process Engineering

Process Engineering holds immense significance in the modern world as it deals with an in-depth analysis of a customer’s unique needs and wants to produce value-added products and offerings that are in line with the mentioned specifications.

Process Engineers are critical to any manufacturing process as they undertake crucial responsibilities that concern the production of the end product. These include research and design of innovative processes & equipment and development of intricate process diagrams that outline the ‘as-is’ state of the raw materials along with their future state as well as the series of steps that are needed to accomplish the final output.

Additionally, a Process Engineer has to define the project scope and provide the time and cost estimates pertaining to the design installation and commencement of the process. He or she is also accountable for taking into account customer and/or stakeholder feedback and incorporating the same into the overall process design. Necessary approvals need to be sought for any increase in project cost or timeline extension. Other responsibilities of a Process Engineer include periodic testing and maintenance of equipment and processes, troubleshooting issues and bottlenecks, data collection, report writing and presentation, risk analysis, quality check, simulation exercises etc.

Where Can I Find Best Possible Process Engineering Courses After Chemical Engineering?

If you are intending to sharpen your awareness of the Process Engineering field and are looking for a well-rounded course curriculum that touches upon its vital aspects, then you can exploit the advantage of MIT Skills’ Advanced PGP in Process Engineering – a cutting-edge program that lasts for about 4 months and includes compelling course contents like Basic Engineering Package (BEP), Process Optimization & Economics, Process Automation & Control, Plant Commissioning, Statutory, Regulatory & Safety Aspects and many other essential topics that will strengthen your understanding of this exhaustive domain and help you excel in challenging sectors such as the petrochemical industry.

References:

https://en.wikipedia.org/wiki/Chemical_engineering

http://www.mastersportal.eu/articles/1928/how-to-become-a-chemical-engineer.html

https://www.prospects.ac.uk/careers-advice/what-can-i-do-with-my-degree/chemical-engineering

https://www.quora.com/What-are-the-career-options-after-graduating-from-chemical-engineering

http://entrance-exam.net/what-to-do-after-btech-in-chemical-engineering/

https://en.wikipedia.org/wiki/Process_engineering

http://www.getreskilled.com/what-is-a-process-engineer/

https://collegegrad.com/careers/chemical-engineers

http://www.worldwidelearn.com/online-education-guide/engineering/chemical-engineering-major.htm