Bachelor of Engineering (Chemical Engineering)
- DURATION
4 years
- STUDY MODE
DISTANCE, FULL TIME
- COURSE TYPE
DEGREE, UNDER GRADUATE (UG)
- EDUCATION
CHEMICAL ENGINEERING
B.E Chemical Engineering introduces the students to the principles of chemistry linking it to engineering in order to explain the problems involved in production and use of chemicals. The subject draws a connection between science and its application to manufacturing sectors. Candidates are strengthened in their leadership skills, problem-solving abilities and designing of projects from start to end level.
The program comprises of classroom study, lab practice and projects along with assignments, whereby students are given an in-depth understanding of the sector procuring knowledge of development, chemical plants operation, working of equipment used in chemical processing plants and so on, which thereby lets candidate gain a wide perspective of workings applicable in private and public sectors.
The stream requires usage of analytical, evaluative and interpretive skills. Candidates possessing the knack of designing new plant ideas along with managing them from the level of inception to conception, making use of their knowledge in business and engineering roles are deemed suitable for this course. The program prepares pupils in taking up more supervisory positions in industries and building teamwork abilities.
As the program also involves subjects like biotechnology and Textile engineering, candidates gain insight on how to deal with methods of reducing bio-hazards and environmental waste. B.E Chemical Engineering is considered one of the highest paying sectors as its application ranges to a wide spectrum of fields, thus attracting a wide range of students to opt for it.The syllabus followed by as follows:
|
Semester I |
Semester II |
|
Biochemical Engineering and Bioinformatics |
Plastics Engineering |
|
Corrosion Engineering |
Nuclear Reprocessing |
|
Nanotechnology |
Industrial Gas |
|
Metallurgy |
Corrosion and Environmental Engineering |
|
Process Design, Control and Development |
Chemical Process Modelling |
|
Thermodynamics |
Biomedical Engineering |
|
Paper Engineering |
Study of Chemical Reactors |
|
Textile Engineering |
Electrochemistry |
|
Semester III |
Semester IV |
|
Engineering Chemistry I |
Engineering Chemistry II |
|
Process Calculations |
Mechanical Equipment Design |
|
Applied Mathematics II |
Applied Mathematics-IV |
|
Chemical Engineering Thermodynamics I |
Chemical Engineering Thermodynamics II |
|
Fluid Flow Operations (FFO) |
Solid-Fluid Mechanical Operations (SFMO) |
|
Chemical Technology |
Chemical Engineering Economics |
|
Engineering Chemistry I (Lab Practice) |
Engineering II (Lab Practice) |
|
Chemical Engineering Lab Practice |
Chemical Engineering Lab III (SFMO) |
|
Semester V |
Semester VI |
|
Business Communications & Ethics |
Transport Phenomenon |
|
Chemical Reaction Engineering – I (CRE I) |
Chemical Reaction Engineering – II (CRE II) |
|
Mass Transfer Operation – I |
Mass Transfer Operation – II |
|
Heat Transfer Operations (HTO) |
Environmental Engineering |
|
Electives: Pipping Engineering Advanced Material Sciences Instrumentation Colloids and Interfaces |
Electives: Operational Research Computational Fluid Dynamics Biotechnology |
|
Semester VII |
Semester VIII |
|
Process Engineering |
Energy Stream Design |
|
Process Equipment Design (PED) |
Modelling, Simulation & optimization (MSO) |
|
Process Dynamics and Control (PDC) |
Project Engineering & Entrepreneurship Management |
|
Electives: Corrosion Engineering Petroleum Technology Industrial Organization and Management |
Electives: Total Quality Management Polymer Technology Advanced Process Control Advanced Separation Technology |
|
Projects/ Seminar |
Project/Seminar/Lab Practice |
