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B-TECH in Chemical Science And Technology at Indian Institute of Technology Guwahati
Kamrup, Assam
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About the Specialization
What is Chemical Science and Technology at Indian Institute of Technology Guwahati Kamrup?
This Chemical Science and Technology program at Indian Institute of Technology Guwahati focuses on the fundamental principles of chemical engineering, applied chemistry, and material science. It emphasizes process design, optimization, and development for various industries, addressing India''''s growing demand for skilled professionals in chemical, pharmaceutical, and energy sectors. The curriculum integrates core scientific knowledge with technological applications for sustainable industrial growth and innovation.
Who Should Apply?
This program is ideal for fresh graduates with a strong foundation in science and mathematics seeking entry into core engineering, research, or product development roles. It also suits individuals interested in careers spanning diverse sectors like petrochemicals, pharmaceuticals, advanced materials, and environmental management. Students with a keen interest in fundamental science combined with industrial application will find this program rewarding, preparing them for leadership roles in a rapidly evolving Indian industrial landscape.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India''''s leading chemical, energy, and material industries, including R&D, process engineering, and project management. Entry-level salaries typically range from INR 7-12 LPA, with experienced professionals earning significantly more. Growth trajectories are robust, offering opportunities for specialization and leadership. The program also prepares students for higher studies or entrepreneurship, aligning with national initiatives for innovation and indigenous technological advancement.
Student Success Practices
Foundation Stage
Strengthen Core Scientific Fundamentals- (Semester 1-2)
Dedicate ample time to master foundational courses like Mathematics, Physics, and Chemistry. Form study groups with peers to tackle complex problems and discuss concepts. Utilize online resources like NPTEL lectures and MIT OpenCourseware for deeper understanding beyond classroom teaching. Attend tutorial sessions diligently to clarify doubts and solidify basic engineering principles.
Tools & Resources
NPTEL, Khan Academy, MIT OpenCourseware, Departmental TAs
Career Connection
A strong grasp of fundamentals is crucial for understanding advanced chemical processes and is often assessed in technical interviews for core engineering roles. This builds the base for future specialization.
Develop Programming and Computational Skills- (Semester 1-2)
Actively participate in the Introduction to Computing and Computer Programming Lab courses. Practice coding challenges on platforms like HackerRank or CodeChef to improve problem-solving logic. Learn basic data analysis tools and simulation software relevant to chemical engineering early on, as computational skills are increasingly vital in process design and optimization.
Tools & Resources
HackerRank, CodeChef, Python/MATLAB tutorials, Institute computing labs
Career Connection
Proficiency in programming and computational tools enhances employability for roles in process simulation, data analysis, and advanced materials design in Indian R&D centers and industries.
Engage with Departmental Introductory Activities- (Semester 1-2)
Attend orientation sessions and introductory talks organized by the Department of Chemical Science and Technology. Interact with senior students and faculty to understand the scope and career prospects of the specialization. Seek out opportunities for introductory projects or literature reviews with professors to gain early exposure to research areas in chemical science.
Tools & Resources
Departmental seminars, Faculty office hours, Student mentorship programs
Career Connection
Early engagement helps in networking, identifying areas of interest, and setting clear academic and career goals, providing a competitive edge for internships and future opportunities in the Indian market.
Intermediate Stage
Apply Theoretical Knowledge in Labs and Projects- (Semester 3-5)
Take laboratory courses seriously, focusing on understanding experimental procedures, data analysis, and report writing. Actively seek out minor projects under faculty guidance in areas like thermodynamics, fluid mechanics, or reaction engineering. Aim to publish findings in student conferences or departmental symposiums to gain research experience.
Tools & Resources
Chemical Engineering Labs, Faculty research groups, Journal papers for literature review
Career Connection
Practical application of concepts is highly valued by Indian industries. Strong lab and project experience demonstrates problem-solving abilities and readiness for R&D or process engineering roles.
Seek Industry Exposure through Internships- (Semester 3-5)
Actively pursue summer internships in relevant chemical, pharmaceutical, or energy industries across India. Network with alumni and use the institute''''s placement cell resources to find opportunities. Focus on gaining hands-on experience in process operations, quality control, or plant design to bridge the gap between academic learning and industrial practice.
Tools & Resources
Institute Placement Cell, LinkedIn, Alumni network, Industry job portals
Career Connection
Internships are critical for securing pre-placement offers and gaining a competitive edge in final placements, giving exposure to real-world challenges in Indian industrial settings.
Build a Strong Network and Participate in Competitions- (Semester 3-5)
Engage with professional bodies like the Indian Institute of Chemical Engineers (IIChE) student chapter. Attend workshops, seminars, and technical competitions organized by the department or other institutions. Participating in hackathons or design competitions related to chemical processes helps develop teamwork, problem-solving skills, and industry relevant insights.
Tools & Resources
IIChE student chapter, Technical fests, Inter-IIT Tech Meet
Career Connection
Networking opens doors to mentorship, collaborative projects, and career opportunities. Competition participation hones skills and provides a platform to showcase talent, highly regarded by recruiters in India.
Advanced Stage
Intensify B.Tech Project Work and Specialization- (Semester 6-8)
Dedicate significant effort to your B.Tech Project, aiming for impactful research or a robust engineering solution. Choose project topics that align with your career interests or emerging industry trends in India, such as sustainable chemistry or advanced materials. Explore interdisciplinary projects to broaden your skill set and collaboration experience.
Tools & Resources
Research labs, Faculty mentors, Relevant journals and industry reports
Career Connection
A strong B.Tech project is a major talking point in interviews, demonstrating specialized knowledge, problem-solving prowess, and independent research capabilities, critical for R&D and higher studies.
Prepare Rigorously for Placements and Higher Studies- (Semester 6-8)
Start preparing for placements early by revising core chemical engineering concepts, aptitude, and communication skills. Practice mock interviews and group discussions. For those aiming for higher studies, prepare for competitive exams like GATE, GRE, or GMAT. Focus on building a strong resume highlighting projects, internships, and academic achievements.
Tools & Resources
Placement cell workshops, Online aptitude tests, Previous year question papers, Career counseling
Career Connection
Thorough preparation ensures securing desirable placements in top Indian and multinational companies or admission to prestigious graduate programs, setting the foundation for a successful career.
Cultivate Leadership and Professional Ethics- (Semester 6-8)
Take on leadership roles in student organizations, technical clubs, or departmental events. Focus on developing soft skills such as communication, team management, and ethical decision-making, which are crucial for professional success in any Indian industry. Understand the importance of sustainable practices and responsible engineering.
Tools & Resources
Student clubs, Leadership workshops, Industry ethics guidelines
Career Connection
Leadership experience and a strong ethical compass are highly valued by employers, positioning you for managerial roles and contributing positively to the industry and society at large in India.
Program Structure and Curriculum
Eligibility:
- No eligibility criteria specified
Duration: 8 semesters (4 years)
Credits: 147 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA101 | Mathematics I | Institute Core | 4 | Not explicitly detailed in curriculum document |
| PH101 | Physics I | Institute Core | 4 | Not explicitly detailed in curriculum document |
| BT101 | Introduction to Biology | Institute Core | 3 | Not explicitly detailed in curriculum document |
| HS101 | English Communication | Institute Core | 3 | Not explicitly detailed in curriculum document |
| PH102 | Physics Lab I | Institute Core | 1 | Not explicitly detailed in curriculum document |
| CS101 | Introduction to Computing | Institute Core | 2 | Not explicitly detailed in curriculum document |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA102 | Mathematics II | Institute Core | 4 | Not explicitly detailed in curriculum document |
| CH101 | Chemistry I | Institute Core | 4 | Not explicitly detailed in curriculum document |
| ME101 | Engineering Drawing | Institute Core | 3 | Not explicitly detailed in curriculum document |
| HS102 | History & Philosophy of Science | Institute Core | 3 | Not explicitly detailed in curriculum document |
| CH102 | Chemistry Lab I | Institute Core | 1 | Not explicitly detailed in curriculum document |
| CS102 | Computer Programming Lab | Institute Core | 3 | Not explicitly detailed in curriculum document |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA201 | Ordinary Differential Equations and Laplace Transforms | Institute Core | 4 | Not explicitly detailed in curriculum document |
| CST201 | Introduction to Chemical Science and Technology | Department Core | 3 | Not explicitly detailed in curriculum document |
| CST202 | Chemical Engineering Thermodynamics | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST203 | Chemical Reaction Engineering | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST204 | Chemical Engineering Lab I | Department Core | 2 | Not explicitly detailed in curriculum document |
| OE1XX | Open Elective I | Open Elective | 3 | Not explicitly detailed in curriculum document |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA202 | Probability and Statistics | Institute Core | 4 | Not explicitly detailed in curriculum document |
| CST205 | Fluid Mechanics | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST206 | Heat Transfer | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST207 | Numerical Methods in Chemical Science and Technology | Department Core | 3 | Not explicitly detailed in curriculum document |
| CST208 | Chemical Engineering Lab II | Department Core | 2 | Not explicitly detailed in curriculum document |
| HSXXX | Humanities and Social Sciences Elective (HSSE) | HSSE | 3 | Not explicitly detailed in curriculum document |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| CST301 | Mass Transfer I | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST302 | Chemical Process Technology | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST303 | Process Dynamics and Control | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST304 | Chemical Engineering Lab III | Department Core | 2 | Not explicitly detailed in curriculum document |
| DE1XX | Department Elective I | Department Elective | 3 | Not explicitly detailed in curriculum document |
| OE2XX | Open Elective II | Open Elective | 3 | Not explicitly detailed in curriculum document |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| CST305 | Separation Processes | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST306 | Process Plant Design | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST307 | Transport Phenomena | Department Core | 4 | Not explicitly detailed in curriculum document |
| CST308 | Material Science and Engineering | Department Core | 3 | Not explicitly detailed in curriculum document |
| DE2XX | Department Elective II | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST309 | Chemical Engineering Lab IV | Department Core | 1 | Not explicitly detailed in curriculum document |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| DE3XX | Department Elective III | Department Elective | 3 | Not explicitly detailed in curriculum document |
| DE4XX | Department Elective IV | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST401 | B.Tech Project I | Project | 4 | Not explicitly detailed in curriculum document |
| CST402 | Grand Viva | Department Core | 2 | Not explicitly detailed in curriculum document |
| HSXXX | Humanities and Social Sciences Elective (HSSE) | HSSE | 3 | Not explicitly detailed in curriculum document |
| EEXXX | Environmental Science and Engineering | Institute Core | 3 | Not explicitly detailed in curriculum document |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| DE5XX | Department Elective V | Department Elective | 3 | Not explicitly detailed in curriculum document |
| DE6XX | Department Elective VI | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST403 | B.Tech Project II | Project | 6 | Not explicitly detailed in curriculum document |
| OE3XX | Open Elective III | Open Elective | 3 | Not explicitly detailed in curriculum document |
Semester electives
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| CST411 | Advanced Chemical Engineering Thermodynamics | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST412 | Advanced Transport Phenomena | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST413 | Advanced Reaction Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST414 | Advanced Separation Processes | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST415 | Biochemical Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST416 | Polymer Science and Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST417 | Process Optimization | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST418 | Nanotechnology | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST419 | Computational Fluid Dynamics | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST420 | Sustainable Chemical Processes | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST421 | Catalysis | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST422 | Petroleum Refinery Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST423 | Process Safety and Hazard Analysis | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST424 | Biotechnology for Chemical Engineers | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST425 | Energy Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST426 | Renewable Energy Technologies | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST427 | Materials Characterization Techniques | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST428 | Process Intensification | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST429 | Membrane Technology | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST430 | Industrial Pollution Control | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST431 | Drug Design and Development | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST432 | Biofuel Production Technologies | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST433 | Electrochemical Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST434 | Food Process Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST435 | Environmental Engineering | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST436 | Colloid and Interface Science | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST437 | Soft Materials | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST438 | Data Science for Chemical Engineers | Department Elective | 3 | Not explicitly detailed in curriculum document |
| CST439 | Molecular Modeling and Simulation | Department Elective | 3 | Not explicitly detailed in curriculum document |
