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7 Career Opportunities After Chemical Engineering Degree

Best Career Opportunities After Chemical Engineering Degree

A Chemical Engineering degree opens up the doors to a lot of exciting and well-compensated career opportunities. In this blog, we'll explore seven diverse career prospects for those who are exploring opportunities after a Chemical Engineering Degree and look at the key skills required, salary expectations, and prominent recruiters in each field. We'll also explore Chemical Engineering salary trends and sectors, along with identifying the prime cities for employment.

  

1. Environmental Engineer

Environmental engineers work on projects related to environmental protection, pollution control, and sustainable practices. Exploring opportunities after a Chemical Engineering Degree, graduates can find employment in government agencies, consulting firms, and industries with a strong focus on environmental compliance, offering promising career prospects.

The number of jobs for environmental engineers is forecasted to grow by 8.3% by 2026. There are projected to be about 4,000 openings on average every year for professionals in this field.* 

Key Skills Needed An Enviromental Engineer

Communication skills are needed to be an environmental engineer so that they can explain plans, specifications & findings. Environmental engineers apply various mathematical concepts, including calculus and trigonometry, in their tasks involving analysis, design, and problem-solving.

Enviromental Engineer Salary 

The salary for Environmental Engineers in India spans from ₹1.8 Lakhs to ₹9.5 Lakhs, with an average yearly income of ₹4.0 Lakhs.**

Top Recruiters 

Tata Steel

Dar Group

CDM Smith

ERM

ABC Techno Labs

Jindal Stainless

**Source - Ambitionbox 

*Source - IndiaToday

 

 

2. Energy Engineer

Energy engineers work to optimise energy consumption and efficiency in various industries. They may be involved in designing energy-efficient processes and systems or working on renewable energy projects. Producing electricity is a sign of a developed country. India is moving toward cleaner ways of making power, like wind and solar. Right now, we have 73 GW of clean energy, but we can have 363 GW. So, being an energy engineer in this field is a good career choice.*

Key skills needed for an energy engineer

In energy engineering, smart thinking can help you find clever solutions when faced with problems. Depending on your job, you might also need skills like good communication, management skills, and knowledge about energy markets and industry trends.

Energy engineer salary 

The salary of an Energy Engineer in India can be anywhere from ₹1.8 LPA to ₹9 LPA, and the typical yearly salary is around ₹3.5 LPA.**

Top recruiters 

RSI-BEST Group

TRS Staffing Solutions

EnergeiaWorks

HCS Renewable

Chris Turzo

**Source - Ambitionbox 

*Source - idreamcareer

3. Product Development Engineer

Adopting this role could be the best opportunity after chemical engineering. These engineers focus on developing new products or improving existing ones. They work closely with research and development teams to create innovative products. Chemical engineers are really good at creating new products because of their strong education, analytical thinking, systematic approach, and problem-solving skills. 

Key skills needed for an product development engineer

As a product developer, it's crucial to possess a solid grasp of both the creative and technical aspects of product development. Key skills for success in this role include creativity, effective problem-solving, good attention to detail, and excellent communication abilities.

Product development engineer Salary

The salary for Product Development Engineers in India can vary from ₹2.0 Lakhs to ₹14.0 Lakhs.*

Top Recruiters 

Intel 

Harman Connected Services 

Ford Motor 

Mercedes Benz Research & Development India 

Ashok Leyland  

*Source - Ambitionbox 



4. Chemical Plant Manager

One of the best opportunities after chemical engineering is to be a chemical plant manager. The job of a chemical plant manager is to oversee the day-to-day operations of chemical manufacturing facilities, ensuring safety, efficiency, and compliance with regulations.

Key skills needed - Organisation and managerial skills, supply-chain knowledge

The projected growth rate for all industrial production managers from 2020 to 2030 is expected to be 5%. *

Salary - The salary range for Plant Managers in India, with under 5 years of experience up to 26 years, spans from ₹6.0 LPA to ₹50.0 LPA.**

**Source - Ambitionbox 

5. Process Engineer

Process engineers work to design, optimise, and oversee manufacturing processes in industries such as pharmaceuticals, petrochemicals, food and beverage, and more. If you start working as a process engineer you’ll work in either one of these industries -  agriculture, lifestyle, chemical, energy, infrastructure and health care. As India's manufacturing sector expands, so do opportunities for product development engineers. The Indian Brand Equity Foundation (IBEF) projects that by 2025, India's manufacturing sector will reach US$1 trillion*, accounting for a quarter of the country's GDP. 

Key skills needed for an Process engineer -

To be a good process engineer, you need to know your way around machines and be familiar with software like AutoCAD, MATLAB, and SOLIDWORKS. Good communication skills are also vital for working well with the management.

Process Engineer Salary -

In India, the salary for Process Engineers typically varies from ₹2.0 LPA to ₹10.2 LPA, and the average annual salary is around ₹5.8 LPA.*

Top Recruiters 

Wells Fargo

Worley

L&T Technology Services Ltd.

Dr. Reddy's Laboratories

Technip Energies

**Source - Ambitionbox 

*Source - Indian Brand Equity Foundation 



6. Petrochemical Engineer

Engage in the extraction of oil and gas, employing the principles of chemistry and geology to extract natural resources from beneath the Earth's surface. They also handle the chemicals derived from gas, coal, and petroleum. According to the Ministry of Petroleum and Natural Gas, the Chemicals and petrochemicals demand in India is expected to nearly triple and reach USD 1 trillion by 2040”*

Key skills needed for an Petrochemical Engineer

Petroleum engineers in India need to be sharp in different areas. They have to carefully plan drilling operations, thinking ahead to avoid problems. They also need to be creative, finding ways to get oil and gas from new places. Math skills are a must, using advanced math for designing and fixing things in the oil industry.

Petrochemical Engineer Salary 

The annual salary of a Petroleum Engineer in India typically falls in the range of ₹2 LPA to ₹20.4 LPA, depending upon the experience with an average yearly income of ₹4.3 LPA.**

Top recruiters 

Bharat Petroleum
Indian Oil Corporation 

Quest Global 

Weatherford 

Oil & Natural Gas Corporation 

*Source - Ministry of Petroleum & Natural Gas

**Source - Ambitionbox

 

7. Chemical Engineering Professor

To become a professor in college, a candidate must complete his Master’s degree in Chemistry or Chemical Engineering and clear the state and national level entrance exams. In order to become a professor at renowned engineering colleges, it is advisable to pursue an MTech degree in chemical engineering, ideally followed by a PhD.

Key skills needed for an Chemical Engineering Professor

The ideal candidate should be someone with good professional values, great people skills, and excellent spoken and written communication abilities. Should be able to build a strong research program, and teach both undergraduate and graduate courses effectively.

Chemical Engineering Professor Salary 

In India, the salary for a Chemical Engineering Lecturer can vary from ₹1.8 LPA to ₹30.0 LPA, with an average annual salary of ₹10.0 LPA. The Department of Higher Education, MHRD, Govt. of India has issued the minimum entry-level Professor salary in India to be Rs. 1,44,200 per month under UGC guidelines. * In addition to the basic pay, Professors will also receive academic grade pay of Rs. 10,000 as per Academic Pay-Level 14 along with additional perks & allowances like DA, HRA, medical insurance, post-retirement benefits,* etc. Top universities in India, such as IITs, IIMs, NITs, VIT Pune, Delhi University, NIFT, Christ University, and Symbiosis, offer higher salary packages.

*Source - testbook.com

Chemical Engineering Salary Trends & Sectors 

Sectors for chemical engineers

  • Oil & Gas Companies

 

  • Chemical Engineering Companies

 

  • Fertiliser Companies

 

  • Food and Drink Companies

 

  • Process Engineering

 

  • Pharmaceutical Companies

 

  • Power and Energy Companies

 

  • Water Treatment Plants

 

  • Colleges & Universities

 

  • Air conditioning and refrigeration industry

 

Sector Wise Chemical Engineering Salary Trends

 

Sector 

Average Salary 

Petroleum (Oil & Gas)

₹ 7 LPA

Power & Energy 

₹ 6 LPA

Pharma 

₹ 5.6 LPA

Fertilizers 

₹ 4.8 LPA

Refrigeration & Air Conditioning 

₹ 4.5 LPA

 

(Make an infographic for this)

(Source - College Duniya)

 

 

Top Cities to offer work opportunities after chemical engineering 

Delhi - with a mix of industrial, research & government sectors. Chemical engineers earn an average of  INR 12 LPA  

Bangalore - “Silicon Valley of India” - The Technology Hub. The sectors mainly focus on electronics, software, and biotechnology. In Bangalore's high-tech environment, chemical engineers can earn annual salaries of up to INR 12 LPA, showcasing the city's competitive compensation opportunities.

Kolkata - The historical significance and growing industries, present opportunities for chemical engineers in sectors like manufacturing & research. Salaries in Kolkata typically range up to INR 9.2 LPA.

Mumbai - Chemical engineers in Mumbai earn different yearly salaries, with the average usually around INR 7.8 lakhs, depending on their experience and the industry they work in.

Chennai - In Chennai, professionals in the field of chemical engineering typically receive an annual salary of INR 6 lakhs. The city's robust industrial growth maintains a continuous need for individuals skilled in process optimisation and research.

Hyderabad - Hyderabad has a growing pharmaceutical and biotechnology industry, providing job opportunities for chemical engineers in research and development, quality control, and process development. Salaries in this sector can range from INR 4 to 8 LPA.

Pune - Along with the pleasant weather, the presence of chemical and automotive industries, makes it an attractive destination for chemical engineers. Entry-level salaries can range from INR 3 to 6 LPA. 

Source: (Naukri.com)

Conclusion 

Getting a degree in chemical engineering opens up a wide range of great career choices in different fields, and they usually come with good pay. There are also some interesting government job options. You can even explore other careers like biotechnology and food science. If you continue your education and get some extra certifications, you can make your job prospects even better. Chemical engineering is a flexible and valuable field with lots of chances for success.

 

Congratulations....

Schedule of Backlog Registration TY for Sem II of AY 2019-20

Electronics & Telecommunication – The Way of Life 

Every year, thousands of students and their parents go through the same process -  of deciding which branch of engineering they should select. A lot of anxiety and lots of advice and advisors. The more you talk to the more is the confusion. Most of the people select branches which are hot from the perception game. It is tough for anyone to decide what branch to select? What are the career prospects out there? Will the degree be worth it, and will it eventually help you get a good job?

 

And many make the most common and costly mistake: following the herd.

 

You start your degree course and by the time you're in the second year, you realise this wasn’t the right fit for you. Too late! You feel you'd wasted the degree and the golden years which you could have spent somewhere else.

 

So, here, I’m going to tell you about a branch, very few really know about and why you should consider it as a worthy choice. It attracts countless international students annually. It promises the best of Engineering and Business. It gives you skills in the design, planning and optimisation of production and manufacturing processes. That’s the Industrial Engineering Bachelor’s degree.

 

The name ‘Industrial Engineer’ (IE) doesn’t really help to explain what it is.  Many people have little or no idea of what it is, and the types of work industrial engineers do on a daily basis.

 

Industrial engineers determine the most effective ways to use the basic resources — people, machines, materials, space, information, and energy—to make a product or provide a service.

 

Industrial engineering is the study of the optimisation of complex processes or systems. They study the design, planning and optimisation of production and manufacturing processes as well as processes in service industries.

 

In addition to the preparation for immediate employment as a practising industrial engineer, the IE degree provides an excellent foundation for further study. This includes masters-level work in manufacturing fields for which a technical base is desirable. Other opportunities exist for further study in IT and management, where the combination of industrial engineering skills is uniquely valuable.

 

The field of industrial engineering has long been recognised as a prime source of management talent. Today’s competitive world needs managers and decision-makers who can apply mathematical concepts and scientific management techniques to the technical problems that arise. An industrial engineer not only understands these problems but is able to devise and implement methods to solve them.

 

Studying Industrial Engineering is flexible - you can pursue a more technical or a more management-oriented path, customising your approach to Industrial Engineering.

 

Four reasons to study Industrial Engineering:

• Industrial Engineers Work in every sector: you will find Industrial Engineers at most companies and in many sectors. This means that you will find a job easily after graduation.

• Technical skills and business knowledge: They also study business management subjects as part of their industrial engineering programmes. You will gain a good grasp of the business side of a company.

• Focus on processes: Industrial engineering is more focused on processes and finding ways to improve processes through strategies such as cost reduction, savings and reducing timings.

• Apply data Analytics: Big data is a growing field and most companies want to make better business decisions by making use of complex chunks of data. Industrial engineering provides you with the foundations for working in this domain.

 

Solutions given by Industrial engineers :

 

• Determining the best location of machines in a factory, or ambulance stations in a metropolitan area, or a new factory in the U.S., based on economic and operational considerations; designing computer-aided process planning systems that flexibly vary the sequence of operations to produce a product

• Determining which types of jobs are most suitable for special populations of workers, such as the elderly and the handicapped

• Developing a system for controlling the inventory levels of a product in a warehouse, books in a bookstore, or gasoline at a service station

• Designing automated material handling systems for the movement of parts in a factory

• Designing a mission management plan for payload specialists on the NASA space shuttle

• Designing computer-integrated manufacturing systems and decision support systems for integrating information and control between manufacturing systems, automated guided vehicles, automated warehouse facilities, and management personnel

• Designing a new plan for scheduling cases to operating rooms in a hospital, or production orders in a factory

• Determining the optimal routing of ambulances through a city, or material handling vehicles in a factory, to minimise travel time

• Developing reliability and quality management systems to ensure that a manufactured product is free from defects

• Developing programs for analysing human reliability to assess workplace safety

• Designing computer graphics systems to assist operators in the monitoring and control of industrial processes

 

What our students do after graduating?

 

• A B.Tech degree in industrial engineering from VIT leads to fascinating careers in industries as diverse as automotive manufacturing, Logistics, transport, airline operations, and financial services. As an IE graduate, you’ll have maximum

flexibility to pursue your goals for advancement in management as well as systems design.

• Industrial engineering is an expanding profession because industrial engineers’ work can help with cost control by increasing efficiency, these engineers are attractive to employers in most industries, including nonprofits. 

• Because they are not too specialised as other engineers, industrial engineers are employed in a wide range of industries, including major manufacturing industries, hospitals, consulting and engineering services, and research and development 

firms. 

• This versatility arises from the fact that these engineers’ expertise focuses on reducing internal costs, making their work valuable for many industries. For example, their work is important for manufacturing industries considering relocation to

domestic sites. 

• In addition, growth in health care and changes in how care is delivered will create demand for industrial engineers. Firms in a variety of industries are seeking new ways to contain costs and improve efficiency, leading to more demand for these

workers.

 

 

Customise your degree to match your interests

 

As a VIT industrial engineer, you will always have options to explore and work in different job roles. We provide many elective subjects as per your interests and the area you’re passionate about.

 

• Want to sit at a computer doing deep data analysis? There are industrial engineering jobs in data analysis and business analysis.

• Want to work on a production floor doing manufacturing work? There are jobs in logistics engineering, manufacturing engineering, production, forecasting, among many others.

• Want to travel while you work? Consider industrial engineering jobs in consulting and client-facing roles. There are plenty of other options – these are just a few examples.

 

Some prospective careers that await you are :

 

• Service industries

• Logistics providers

• Manufacturing industries

• Consulting, IT and engineering services

• Research and development firms

• Wholesale trade

 

So, excited about it now ? Want to know more ?  Contact us at This email address is being protected from spambots. You need JavaScript enabled to view it.. You’ll get all your answers.

 

Why Should you Study Industrial Engineering?

Every year, thousands of students and their parents go through the same process -  of deciding which branch of engineering they should select. A lot of anxiety and lots of advice and advisors. The more you talk to the more is the confusion. Most of the people select branches which are hot from the perception game. It is tough for anyone to decide what branch to select? What are the career prospects out there? Will the degree be worth it, and will it eventually help you get a good job?

 

And many make the most common and costly mistake: following the herd.

 

You start your degree course and by the time you're in the second year, you realise this wasn’t the right fit for you. Too late! You feel you'd wasted the degree and the golden years which you could have spent somewhere else.

 

So, here, I’m going to tell you about a branch, very few really know about and why you should consider it as a worthy choice. It attracts countless international students annually. It promises the best of Engineering and Business. It gives you skills in the design, planning and optimisation of production and manufacturing processes. That’s the Industrial Engineering Bachelor’s degree.

 

The name ‘Industrial Engineer’ (IE) doesn’t really help to explain what it is.  Many people have little or no idea of what it is, and the types of work industrial engineers do on a daily basis.

 

Industrial engineers determine the most effective ways to use the basic resources — people, machines, materials, space, information, and energy—to make a product or provide a service.

 

Industrial engineering is the study of the optimisation of complex processes or systems. They study the design, planning and optimisation of production and manufacturing processes as well as processes in service industries.

 

In addition to the preparation for immediate employment as a practising industrial engineer, the IE degree provides an excellent foundation for further study. This includes masters-level work in manufacturing fields for which a technical base is desirable. Other opportunities exist for further study in IT and management, where the combination of industrial engineering skills is uniquely valuable.

 

The field of industrial engineering has long been recognised as a prime source of management talent. Today’s competitive world needs managers and decision-makers who can apply mathematical concepts and scientific management techniques to the technical problems that arise. An industrial engineer not only understands these problems but is able to devise and implement methods to solve them.

 

Studying Industrial Engineering is flexible - you can pursue a more technical or a more management-oriented path, customising your approach to Industrial Engineering.

 

Four reasons to study Industrial Engineering:

• Industrial Engineers Work in every sector: you will find Industrial Engineers at most companies and in many sectors. This means that you will find a job easily after graduation.

• Technical skills and business knowledge: They also study business management subjects as part of their industrial engineering programmes. You will gain a good grasp of the business side of a company.

• Focus on processes: Industrial engineering is more focused on processes and finding ways to improve processes through strategies such as cost reduction, savings and reducing timings.

• Apply data Analytics: Big data is a growing field and most companies want to make better business decisions by making use of complex chunks of data. Industrial engineering provides you with the foundations for working in this domain.

 

Solutions given by Industrial engineers :

 

• Determining the best location of machines in a factory, or ambulance stations in a metropolitan area, or a new factory in the U.S., based on economic and operational considerations; designing computer-aided process planning systems that flexibly vary the sequence of operations to produce a product

• Determining which types of jobs are most suitable for special populations of workers, such as the elderly and the handicapped

• Developing a system for controlling the inventory levels of a product in a warehouse, books in a bookstore, or gasoline at a service station

• Designing automated material handling systems for the movement of parts in a factory

• Designing a mission management plan for payload specialists on the NASA space shuttle

• Designing computer-integrated manufacturing systems and decision support systems for integrating information and control between manufacturing systems, automated guided vehicles, automated warehouse facilities, and management personnel

• Designing a new plan for scheduling cases to operating rooms in a hospital, or production orders in a factory

• Determining the optimal routing of ambulances through a city, or material handling vehicles in a factory, to minimise travel time

• Developing reliability and quality management systems to ensure that a manufactured product is free from defects

• Developing programs for analysing human reliability to assess workplace safety

• Designing computer graphics systems to assist operators in the monitoring and control of industrial processes

 

What our students do after graduating?

 

• A B.Tech degree in industrial engineering from VIT leads to fascinating careers in industries as diverse as automotive manufacturing, Logistics, transport, airline operations, and financial services. As an IE graduate, you’ll have maximum

flexibility to pursue your goals for advancement in management as well as systems design.

• Industrial engineering is an expanding profession because industrial engineers’ work can help with cost control by increasing efficiency, these engineers are attractive to employers in most industries, including nonprofits. 

• Because they are not too specialised as other engineers, industrial engineers are employed in a wide range of industries, including major manufacturing industries, hospitals, consulting and engineering services, and research and development 

firms. 

• This versatility arises from the fact that these engineers’ expertise focuses on reducing internal costs, making their work valuable for many industries. For example, their work is important for manufacturing industries considering relocation to

domestic sites. 

• In addition, growth in health care and changes in how care is delivered will create demand for industrial engineers. Firms in a variety of industries are seeking new ways to contain costs and improve efficiency, leading to more demand for these

workers.

 

 

Customise your degree to match your interests

 

As a VIT industrial engineer, you will always have options to explore and work in different job roles. We provide many elective subjects as per your interests and the area you’re passionate about.

 

• Want to sit at a computer doing deep data analysis? There are industrial engineering jobs in data analysis and business analysis.

• Want to work on a production floor doing manufacturing work? There are jobs in logistics engineering, manufacturing engineering, production, forecasting, among many others.

• Want to travel while you work? Consider industrial engineering jobs in consulting and client-facing roles. There are plenty of other options – these are just a few examples.

 

Some prospective careers that await you are :

 

• Service industries

• Logistics providers

• Manufacturing industries

• Consulting, IT and engineering services

• Research and development firms

• Wholesale trade

 

So, excited about it now ? Want to know more ?  Contact us at This email address is being protected from spambots. You need JavaScript enabled to view it.. You’ll get all your answers.

 

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