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Chemical Engineering is a highly sought-after specialisation among aspirants. The field offers wide career opportunities for students in various chemical industries. These include Petrochemicals, Pharmaceuticals, Biotechnology, Manufacturing, Food and Beverage, and Research. The blog covers the complete details of the Chemical Engineering subjects list of B.Tech, M.Tech and diploma-level courses for students interested in the field.
Chemical Engineering is a field of science that combines Chemistry, Physics, and Maths to design and develop chemical processes. It deals with turning raw materials into useful products like fuels, drugs, and food. The course is offered at BE /B Tech, M.Tech, Integrated B Tech + M Tech, diploma, certificate and PhD levels. After graduation, students can find jobs in large-scale production sectors like food, energy, and pharma. Students can also find jobs in sustainability, water treatment and polymer industries. The course fee for chemical engineering varies widely depending on the institute type. The total fee range for B Tech in Chemical Engineering is about INR 3 -15 lakhs in private colleges. Government colleges may charge a total course fee of up to 8 lakhs.
B.Tech in Chemical Engineering is a four-year undergraduate programme pursued after class 12. The course is divided into 8 semesters, covering subjects such as Fluid Mechanics, Heat Transfer, Chemical Reaction Engineering, and Thermodynamics. B.Tech Chemical Engineering admissions are based on national exams or state-level examinations like JEE, KCET, MHT CET and WBJEE.
Below is the subject list of Chemical Engineering for B.Tech offered by most colleges:
Below is the general B Tech Chemical Engineering syllabus offered by most colleges:
|
Semester I |
Semester II |
|
Fundamentals of Chemical Engineering |
Strength of Materials |
|
Semester III |
Semester IV |
|
Machine Design |
Chemical Process Calculations |
|
Semester V |
Semester VI |
|
Separation Processes - I
|
Principles of Measurements & Instrumentation |
|
Semester VII |
Semester VIII |
|
Separation Processes-III |
Chemical Project Engineering & Economics |
M.Tech Chemical Engineering is a two-year postgraduate programme that is divided into four semesters. It is pursued after completing a B.Tech in Chemical Engineering to specialise further in certain areas. Some of the specialisations in Chemical Engineering include Process Design and Control, Chemical Reaction Engineering, Biotechnology, Environmental Engineering, Materials Science, and Computational Fluid Dynamics.
The main subjects offered in an M.Tech Chemical Engineering course include Chemical Reaction Engineering, Process Control, and Transport Phenomena. Below is the semester-wise syllabus for M.Tech Chemical Engineering.
|
Semester I |
Semester II |
|
Advanced Process Control |
Advances in Fluidisation Engineering |
| Semester III |
Semester IV |
|
Bioprocess Engineering |
Process Optimization |
A Diploma in Chemical Engineering is offered as a three-year programme. Students usually pursue it after completing class 10. After completing a diploma in Chemical Engineering, students can find jobs in the specialisation or pursue a B.Tech through lateral entry in the second year.
|
Semester I |
Semester II |
|
Engineering Mathematics - I |
Engineering Mathematics - II |
|
Semester III |
Semester IV |
|
Chemical Process Principles |
Environmental Engineering |
|
Semester V |
Semester VI |
|
Industrial Management and Safety |
Mass Transfer Operations |
In conclusion, a B.Tech or M.Tech in Chemical Engineering offers a comprehensive curriculum covering foundational topics in the field. It provides students with the theoretical and practical knowledge essential for the chemical industry. The course also opens up various opportunities across industries, including Pharma, Petrochemicals and Environment. Graduates can also work in new sectors like Sustainability and Green Chemistry. Hence, this offers a rewarding career path for individuals interested in this field.
Reach out to start your Engineering career with JAIN (Deemed-to-be University): https://www.jainuniversity.ac.in/enquiry
A1. The main subjects in Chemical Engineering include Fluid Mechanics, Heat Transfer, Mass Transfer and Chemical Reaction Engineering.
A2. Common elective B.Tech. Chemical Engineering subjects include: Biochemical Engineering, Polymer Technology, Environmental Engineering, Petroleum Refining, and Process Design and Simulation.
A3. The B. Tech Chemical Engineering syllabus is generally considered challenging due to subjects like Advanced Mathematics and Thermodynamics. Hence, it requires more effort from students to master these concepts.
A4. Chemical engineers need both technical and soft skills to succeed in the industry. Some of the key skills include analytical thinking, process design, project management, communication, and teamwork.
A5. Chemical Engineers use the principles of Chemistry, Physics, and Mathematics to optimise chemical processes in industries. They design and develop safe solutions to help production across industries such as Pharmaceuticals, Petrochemicals, Food, and Energy.
A6. Yes, Chemical Engineers can work in hospitals in roles related to pharma and medical device development. They can also work on medical imaging, diagnostics, drug delivery and biomedical engineering to improve healthcare technologies.
A7. Yes, a Chemical Engineer has a wide scope across industries. The field is essential for converting raw materials into valuable products like fuels, medicines and food. They can get employed in sectors like Oil & Gas, Petrochemicals, Pharmaceuticals, Healthcare, Environment, and Energy.
A8. The future of Chemical Engineering is expanding due to growing demand in sectors such as Sustainability, Green Chemistry, and Automation. This also widens the scope for chemical engineers, promising good career prospects.
A9. Yes, Chemical Engineering is a Math-heavy subject. It covers topics like Calculus, Algebra and Differential Equations. Maths as a subject is used to solve complex problems, model simulations, and make critical decisions in chemical plants. Hence, the subject is central to the chemical engineering curriculum.