Program Structure
First Semester
- BTCE101 –
- Mathematics–I –
- 4 Credits
- BTCE102 –
- Chemistry –
- 4 Credits
- BTCE103 –
- English For Communication –
- 4 Credits
- BTCE104 –
- Electrical Technology –
- 4 Credits
- BTCE105 –
- Mechanics –
- 4 Credits
- BTCE106 –
- Introduction to Manufacturing Process–
- 4 Credits
- BTCE107P –
- Chemistry Practical–
- 4 Credits
- BTCE108P –
- Electrical Technology Practical–
- 4 Credits
TOTAL CUMULATIVE CREDITS – 32 Credits
Second Semester
- BTCE201 –
- Mathematics–II –
- 4 Credits
- BTCE202 –
- Applied Physics–
- 4 Credits
- BTCE203 –
- Fundamental of Computers –
- 4 Credits
- BTCE204 –
- Basic Electronics –
- 4 Credits
- BTCE205 –
- Engineering Drawing and Graphics –
- 4 Credits
- BTCE206P –
- Applied Physics Practical –
- 4 Credits
- BTCE207P –
- Basic Electronic Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Third Semester
- BTCE301 –
- Mathematics-III–
- 4 Credits
- BTCE302 –
- Thermodynamics –
- 4 Credits
- BTCE303 –
- Transport Processes–
- 4 Credits
- BTCE304 –
- Non-Conventional Energy Engg–
- 4 Credits
- BTCE305 –
- Electrical Machine –
- 4 Credits
- BTCE306P –
- Thermodynamics Practical –
- 4 Credits
- BTCE307P –
- Electrical Machine Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Fourth Semester
- BTCE401 –
- Society, Environment & Engineering –
- 4 Credits
- BTCE402 –
- Introduction to Process Calculation & Flowsheeting –
- 4 Credits
- BTCE403 –
- Numerical Methods –
- 4 Credits
- BTCE404 –
- Heat Transfer –
- 4 Credits
- BTCE405 –
- Organic & Inorganic Chemistry –
- 4 Credits
- BTCE406P –
- Introduction to Process Calculation and Flow Sheeting Practical –
- 4 Credits
- BTCE407P –
- Numerical Methods Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Fifth Semester
- BTCE501 –
- Mass Transfer Operation-I –
- 4 Credits
- BTCE502 –
- Fluid Flow –
- 4 Credits
- BTCE503 –
- Chemical Engineering Thermodynamics-I–
- 4 Credits
- BTCE504 –
- Chemical Equipment Design –
- 4 Credits
- BTCE505 –
- Operation Research –
- 4 Credits
- BTCE506P –
- Mass Transfer Operations-I Practical –
- 4 Credits
- BTCE507P –
- Fluid Flow Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Sixth Semester
- BTCE601 –
- Mechanical Operation –
- 4 Credits
- BTCE602 –
- Strength of Materials –
- 4 Credits
- BTCE603 –
- Material Science –
- 4 Credits
- BTCE604 –
- Mass Transfer Operation-II–
- 4 Credits
- BTCE605 –
- Industrial Economics & Management –
- 4 Credits
- BTCE606P –
- Mechanical Operation Practical –
- 4 Credits
- BTCE607P –
- Mass Transfer Operation-II Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Seventh Semester
- BTCE701 –
- Process Engineering –
- 4 Credits
- BTCE702 –
- Instrumentation & Process Control –
- 4 Credits
- BTCE703 –
- Industrial Safety –
- 4 Credits
- BTCE704 –
- Process Simulation & Design –
- 4 Credits
- BTCE705-I –
- Petrochemical & Refining Technology –
- 4 Credits
- Biochemical Engineering
- Polymer Engineering
- BTCE706 –
- Instrumentation & Process Control Practical –
- 4 Credits
- BTCE707 –
- Process Simulation & Design Practical –
- 4 Credits
TOTAL CUMULATIVE CREDITS – 28 Credits
Eighth Semester
- BTCE801 –
- Semester Viii–
- 4 Credits
- BTCE802 –
- Environmental Engineering –
- 4 Credits
- BTCE803 –
- Project Engineering & Management –
- 4 Credits
- BTCE804P –
- Reactors Design –
- 4 Credits
- BTCE805P –
- Environmental Engineering Practical –
- 4 Credits
- Project–
- 4 Credits
TOTAL CUMULATIVE CREDITS – 24 Credits
Related Courses
- B.Tech. Mechanical Engineering
- B.Tech. Electrical Engineering
- B.Tech. Mining Engineering
- B.Tech. Information Technology Engineering
- B.Tech. Computer Science Engineering
- B.Tech. Civil Engineering
- B.Tech. Automobile Engineering
- B.Tech. Electronics & Telecommunications Engineering
- B.Tech. Aeronautical Engineering
Other Courses
Program Overview
B. Tech. Chemical Engineering or Bachelor of Technology in Chemical Engineering is a bifurcation of engineering that dispenses with the draft and evolution of procedure and operation of mechanism and factory through which the physical or chemical state of materials undertakes varied changes, and uses proposition of economics, physics, chemistry, and mathematics to efficacious use, assemble, convert, and transport chemicals, materials, and energy. A chemical engineer draws huge-scale processes that coverts the raw materials, living cells, microorganisms, and energy into useful forms and products. Chemical engineers are involved in many aspects of plant design and operation, including safety and threat estimation, process design and analysis, chemical reaction engineering, control engineering, construction specification, and operating instructions. Modern innovations like human ordination project, inherited engineering, and DNA sequencing has changed the face how chemical engineering was earlier perceived.
Key Role of B. Tech. Chemical Engineering
- Research and Development (R&D) : Research and development is about designing, improving and creating products and services. Some public sectors provide good earning opportunity. This is the most prestigious sector for Chemical Engineers.
- Installation : This is also fundamental plant job for Chemical Engineers. Under the observation of Chemical Engineers the part of machines are installed.
- Analysis and testing : This is also a new trending job along with design. In this job you have to experiment with the products. Quality assurance is also the part of it.
Industries where B. Tech Chemical Engineers can work
- Power plants
- Cement Industries
- Automobiles Industries
- Chemical industries
- Mining Industries
- Steel Industries
- Nuclear Industries
- Aerospace Industries
- Paper Industries
- Thermal Power Industries
- Power generation industries and many more.