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The B.Tech. Chemical & Biochemical Engineering program offered by the Department of Biotechnology & Bioengineering at the School of Biosciences and Technology is designed to equip students with a strong foundation in chemical and biological sciences, along with engineering principles. The curriculum includes core subjects such as Fluid Mechanics, Biochemical Processes, Heat and Mass Transfer, and Bioprocess Engineering, alongside specialized courses in Fermentation Technology, Bioreactor Design, and Pharmaceutical Biotechnology. With a focus on sustainability and emerging technologies, students also explore areas like Biofuels, Wastewater Treatment, and Nanobiotechnology. Practical learning is emphasized through internships, mini projects, and hands-on laboratory sessions.
Class 12th with minimum 50% marks in Physics, Chemistry, Maths/Biology/Biotechnology
Students with a CUET / SAT (DI Code - 71057 ) score will be given preference in the merit list
Graduates of B.Tech. Chemical & Biochemical Engineering program have diverse career opportunities in industries such as pharmaceuticals, biotechnology, environmental engineering, food processing, and renewable energy. They can work as process engineers, bioprocess scientists, research analysts, or quality control specialists in companies focused on biomanufacturing, drug development, and biochemical production. The interdisciplinary nature of this field also opens doors to roles in bioinformatics, regulatory affairs, and industrial research, making it a promising career choice with growing demand in both academic and industrial sectors.
01
Engineering Knowledge: Apply the knowledge of mathematics, natural sciences, and biochemical engineering to analyse and solve complex chemical and biochemical engineering problems (WK1-WK4).
02
Problem Analysis: Identify, formulate, and analyse complex biochemical processes, integrating cellular biology, reaction kinetics, and process engineering principles (WK1-WK4).
03
Design/Development of Solutions: Design innovative solutions for bioprocesses, pharmaceuticals, and sustainable technologies, considering societal and environmental impacts (WK5).
04
Investigations of Complex Problems: Conduct research-based process optimization, bioreactor design, and statistical analysis to develop data-driven solutions for biochemical engineering challenges (WK8).
05
Modern Tool Usage: Utilize computational tools such as IoT, AI, bioinformatics, and statistical analysis for process simulation, control, and modelling in biochemical systems (WK2 & WK6).
06
The Engineer and Society: Evaluate the societal, ethical, and legal implications of biochemical engineering innovations, ensuring sustainability and safety compliance (WK1, WK5, WK7).
07
Ethics: Commit to professional bioethics, regulatory guidelines, and responsible engineering practices in biotechnology and chemical industries (WK9).
08
Individual and Teamwork: Function effectively as an individual and as part of multidisciplinary teams in diverse engineering environments.
09
Communication: Communicate effectively in technical, regulatory, and industrial contexts, including writing research reports, presenting findings, and engaging in professional discourse.
10
Project Management and Finance: Apply engineering management principles, entrepreneurship, and financial decision-making in process industries and startups.
11
Life-Long Learning: Engage in continuous learning and adapt to emerging biotechnologies, automation, and digital transformation in chemical and biochemical engineering (WK8).
Graduates will build successful careers in chemical, biochemical, pharmaceutical, biotechnology, food, and environmental industries.
Graduates will pursue higher education and global career opportunities in fields such as bioprocess engineering, drug development, biofuels, and sustainable technologies.
Graduates will cultivate an entrepreneurial mindset, driving biotechnology-based innovation & startups, development of advanced materials, and sustainable, eco-friendly solutions for industry and society.
Graduates will serve in research and development (R&D) in academia and Chemical & Biochemical industries
Apply biochemical engineering principles to design, optimize, and scale-up bioreactors, fermentation processes, and downstream processing, ensuring safety, quality, and regulatory compliance in industrial applications.
Develop and implement sustainable, energy-efficient, and eco-friendly technologies for biofuels, environmental biotechnology, and wastewater treatment, contributing to circular economy principles.
Utilize AI, data analytics, bioinformatics, and automation to drive innovations in biopharmaceuticals, structural biology, and smart manufacturing, ensuring global industry relevance.