B.Tech Chemical Engineering (Clean Energy Technologies) a four-year course. This is an engineering degree that studies the principles and laws of physics, chemistry, mathematics, biology and economics, down to the mechanism of converting chemicals or raw materials into more useful or valuable forms. The program develops a better understanding of developments and operations in the chemical industry and of the process equipment required in the industry.
Candidates can work in large industries, from biomedicine or nanotechnology to food processing and petrochemicals. It is mainly about developing and designing processes to create new products or improve existing ones. Clean technologies include recycling, renewable energy, information technology, green transportation, electric motors, green chemistry and lighting.
B.Tech Chemical Engineering (Clean Energy Technologies) Highlights
Course Level |
Undergraduate |
Duration |
4 years |
Examination Type |
Semester system |
Eligibility |
Class 12th or equivalent with a minimum of 50% of marks. |
Admission Process |
National or State Level Entrance Exam Deemed Universities Entrance Exams Direct Admission Process |
Major Entrance Exams |
JEE Main, MHT CET, KCET, AP EAMCET, TS EAMCET, KEAM, Goa CET, WBJEE, UPSEE |
Average Salary Package |
INR 4 to 7 LPA |
Top Recruiting Companies |
ONGC, Coal India, Geological Survey of India, HCL, IPCL, Neyveli Lignite Corp., NALCO, TISCO, TELCO, Reliance |
Job Roles |
Chemical Engineer, Technical Service Engineer, Professor, Fire & Safety Officer, Manager, Chemical System Coordinator |
Eligibility Criteria for B.Tech Chemical Engineering (Clean Energy Technologies)
1. Applicants must have a 10+2 qualification from a recognized board on Physics, Chemistry and Biology subjects in Class 12th.
2. Applicants must achieve at least 50% to 60% of the points in the relevant proficiency tests.
3. Eligibility conditions for candidates belonging to SC/ST/OBC/PwD categories will be 45% marks in the qualifying examinations.
4. Applicants must not be younger than 17 at the time of application.
Admission Process
1. Colleges publish admission notices on their website from June when most Indian universities would have finished degree exams.
2. Candidate to apply for each college, as each college considers each mark the cut-off mark.
3. Some private colleges and deemed universities perform their counselling process by conducting their university-level entrance exams.
4. Some colleges require a minimum of 50% aggregate in the qualifying examination.
5. Candidates who qualify for the test are called for an interview before the final seat allotment.
6. Some of the entrance exams for BTech are JEE Main, WBJEE, JEE Advanced, KCET etc.
Career after B.Tech Chemical Engineering (Clean Energy Technologies)
After completing the course, graduates can find themselves in the thick of things by playing a major role in sustainable development by promoting renewable energy technologies and providing alternative energy options to industries. The students can also do a government job after completing this course alongside various private jobs.
On completion of the programme, graduates gain proficiency in subjects like solar thermal engineering, advanced material physics, solar power technology, and more. Such reserves include fossil fuels, biogas, and solar energy. In addition to developing renewable energy sources, these professionals also audit energy production and enact environmental laws.
Many countries have begun investing in clean energy protocols, creating additional job opportunities for energy engineers. The price of clean energy is also falling, increasing the demand for professionals skilled in energy. And the wages for these jobs are high compared to many other engineering disciplines.
B.Tech Chemical Engineering (Clean Energy Technologies) Syllabus
Semester I |
Semester II |
Theory |
Theory |
Mathematics I |
Mathematics II |
Physics |
Material Science |
Chemistry |
Environmental Science |
Basic Civil & Mechanical Engineering |
Basic Electrical and Electronics Engineering |
Engineering Mechanics |
Engineering Thermodynamics |
Communicative English |
Computer Programming |
Practicals |
Practicals |
Physics Lab |
Computer Programming Lab |
Chemistry Lab |
Engineering Graphics |
Workshop Practice |
Basic Electrical and Electronics Lab |
Semester III |
Semester IV |
Theory |
Theory |
Mathematics III |
Mathematics IV |
Physical Chemistry |
Organic Chemistry |
Strength of Materials |
Chemical Engineering Thermodynamics |
Electrical and Electronics Engineering |
Process Heat Transfer |
Process Calculations |
Mass Transfer |
Momentum Transfer |
Mechanical Operations |
Practicals |
Practicals |
Physical Chemistry Lab |
Organic Chemistry Lab |
Strength of Materials Lab |
Momentum Transfer Lab |
Electrical and Electronics Engg. Lab |
Chemical Engineering Drawing |
Semester V |
Semester VI |
Theory |
Theory |
Process Instrumentation |
Numerical Methods and Special Functions |
Mass Transfer II |
Mass Transfer III |
Chemical Reaction Engineering |
Chemical Reaction Engineering II |
Energy Technology and Management |
Process Design of Chemical Equipments |
Chemical Process Industries |
Elective I |
Chemical Engineering Practice |
Elective II |
Practicals |
Practicals |
Mass Transfer Lab I |
Mass Transfer Lab II |
Heat Transfer Lab |
Chemical Reaction Engg. Lab |
Mechanical Operations Lab |
Technical Analysis Lab |
General Proficiency I |
General Proficiency II |
Semester VII |
Semester VIII |
Theory |
Theory |
Process Dynamics and Control |
Transport Phenomena |
Mechanical Design of Chemical Equipments |
Process Engineering Economics |
Industrial Management |
Pollution Control in Process Industries |
Elective III |
Elective V |
Elective IV |
Elective VI |
Practicals |
Practicals |
Computer aided design Lab |
Process Dynamics and Control Lab |
Project Work (Phase I) |
Project Work (Phase II) |
Seminar |
Comprehensive Viva Voce |
Industrial Visit / Training |
Professional Ethical Practice |