B. Tech – Electrical Engineering (EE)
DURATION: 3 YEARS
Become Leaders of Tomorrow!
Mechanical engineering education at BBIT College focuses on developing critical thinking and problem-solving skills for designing and developing innovative products and systems. Students learn to use analytical tools to meet design and manufacturing constraints and gain a deep understanding of manufacturing technologies and processes. Emphasis is placed on building collaboration and communication skills to bring ideas and products to market, preparing students for management and leadership roles in the industry.
The curriculum integrates hands-on experience with theory through well-equipped labs and workshops. Students engage in project-based, research-led learning to solve real-world problems and apply mechanical engineering concepts effectively.
The B.Tech in Mechanical Engineering program at BBIT College adopts a comprehensive approach to refine problem-solving, project management, and leadership skills, equipping students with the knowledge and confidence to excel across various industries. BBIT College aims to train students to be impactful innovators and progress drivers, promoting an immersive, integrative, and multi-dimensional approach to career development.
Program Educational Objectives (PEOs):
Equip students with fundamental knowledge in electrical engineering, along with a strong foundation in Physics, Chemistry, and Mathematics.
Cultivate problem-solving instincts in students to address engineering challenges effectively.
Facilitate opportunities for higher education in esteemed institutions and research & development organizations.
Prepare students to become future technological leaders through comprehensive training and development.
Program Specific Outcomes (PSOs):
Apply domain knowledge to comprehend and solve engineering problems effectively.
Utilize modern software and hardware tools for the analysis and design of complex electrical systems in research and industrial contexts.
Embrace societal and national responsibilities to provide valuable services to humanity.
Develop as ethical and responsible engineering professionals.
Program Specific Objectives (PSOs):
Critically analyze complex power system scenarios and propose solutions using acquired theoretical and practical knowledge.
Work on defined projects by interpreting power system data to provide real-time solutions to system issues
Identify optimal solutions to enhance power transfer capability, improve power quality, and ensure reliability.
This program is ideal for individuals passionate about manufacturing and designing power systems, who possess strong problem-solving abilities and a desire to pursue rewarding careers in electrical system design, development, and maintenance, ensuring quality, safety, reliability, and sustainability.
Program Outcomes (POs):
Apply knowledge of mathematics, science, engineering fundamentals, and specialization to solve complex engineering problems.
Identify, formulate, review research literature, and analyze complex engineering problems, reaching substantiated conclusions using mathematical, natural sciences, and engineering principles.
Design solutions for complex engineering problems and system components or processes that meet specified needs with considerations for public health, safety, cultural, societal, and environmental factors.
Use research-based knowledge and methods, including experimental design, data analysis, and information synthesis, to provide valid conclusions.
Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to complex engineering activities, understanding their limitations.
Apply contextual knowledge to assess societal, health, safety, legal, and cultural issues, and understand the responsibilities relevant to professional engineering practice.
Understand the impact of professional engineering solutions in societal and environmental contexts, demonstrating knowledge of and commitment to sustainable development.
Apply ethical principles and commit to professional ethics, responsibilities, and norms in engineering practice.
Function effectively both as an individual and as a leader or member of diverse teams and multidisciplinary settings.
Communicate effectively on complex engineering activities with the engineering community and society, including writing effective reports, creating design documentation, making presentations, and giving and receiving clear instructions.
Demonstrate knowledge and understanding of engineering and management principles to manage projects and work in multidisciplinary environments effectively.
Recognize the need for and engage in independent and life-long learning in the context of technological advancements.
Potential Job Roles
Power Engineer
Specializes in the generation, transmission, and distribution of electrical power.
Telecommunication Engineer
Focuses on designing and managing communication systems and networks.
Control and Instrumentation Engineer
Works on the design and implementation of control systems and instruments for industrial processes.
Electronics Engineer
Designs and develops electronic circuits, devices, and systems.
Broadcast Engineer
Manages and maintains equipment used for broadcasting television and radio.
Electrical Engineer
Applies principles of electricity and electromagnetism to design and develop electrical systems and equipment.
Design Engineer
Specializes in designing new products and systems, ensuring they meet required specifications and standards.
Nuclear Engineer
Works on the development and management of nuclear energy and radiation processes.
Consultant
Provides expert advice and solutions in various engineering fields based on specialized knowledge.
Systems Analyst
Analyzes and designs information systems to improve efficiency and effectiveness within organizations.
Program Overview & Structure
Theory:
English Language& TechnicalCommunication
- Physics – 1
- Mathematics – 1
- Basic Electrical &Electronic Engineering – I
- Engg. Mechanics
Practical:
- Physics – 1 (Laboratory)
- Basic Electrical &Electronic Engineering – I (Laboratory)
- Workshop Practice
- Language Laboratory
- Extra-Curricular Activities(NSS/NCC/NSOetc.)
Theory:
- Basic Computation & Principles of Computer Programming
- Chemistry – 1
- Mathematics – 2
- Basic Electrical & Electronic Engineering – II
- Engineering Thermodynamics & Fluid Mechanics
Practical:
- Basic Computation &Principles of ComputerProgramming (Lab)
- Chemistry – 1 (Laboratory)
- Basic Electrical & Electronic Engineering – II (Laboratory)
- Basic Engg. Drawing &Computer Graphics
Theory:
- Values & Ethics in Profession
- Physics – 2
- Basic Environmental Engineering &Elementary Biology
- Applied Thermodynamics
- Strength of Materials
- Engineering Materials
Practical:
Technical Report Writing & Language Lab Practice
- Physics Lab – 2
- Machine Drawing –I
- Workshop Practice – II
- Applied Mechanics Lab
Theory:
- Numerical Methods
- Mathematics – 3
Fluid Mechanics & Hydraulic Machines
- Mechanisms
- Primary Manufacturing Processes
Practical:
- Numerical Methods Lab
- Fluid Mechanics & Hydraulics Lab
- Manufacturing Technology Lab
- Material Testing Lab
- Machine Drawing – II
Theory:
Principles & Practices of Management
- Dynamics of Machines
- Heat Transfer
- Design of Machine Elements
- Metrology & Measurement
Practical:
- Seminar – I
- Applied Thermodynamics & HeatTransfer Lab
- Design Practice – I
- Metrology & Measurement Lab
Professional Elective – I Lab:
- Electrical Machines Applied Fluid Mechanics
Theory:
Production & Operations Management
- PIC Engines and Gas Turbines
Machining Principles & Machine Tools
- Machine Design
Professional Elective – II:
- Air Conditioning & Refrigeration Mechatronics Fluid Power Control
Professional Elective – III:
- Materials Handling Finite Element Method Turbo Machinery
Practical:
- Machining & Machine Tools Lab
- IC Engine Lab
- Design Practice – II
- Dynamics of Machines Lab
Professional Elective – II Lab:
- Air Conditioning & Refrigeration Mechatronics Fluid Power Control
Theory:
- Power Plant Engineering
Advanced Manufacturing Technology
Professional Elective – IV:
- Maintenance Engineering Renewable Energy Systems Tribology
Professional Elective – V:
- Quantity Production Method Advanced Welding Technology Computational Methods in Engineering
Free Elective – I:
- Software Engineering Industrial Instrumentation Operations Research Biomechanics & Biomaterials
Practical:
- Advanced Manufacturing Lab
- Project : Part 1
- Viva Voce on Vacational Training
- Group Discussion
Theory:
- Economics for Engineers
Professional Elective – VI:
- CAD/CAM Industrial Robotics Energy Conservation & Management Quality & Reliability Engineering
Free Elective – I:
- Safety & Occupational Health Automation & Control Water Resource Engineering, Automobile Engineering
Practical:
- Deign of a Mechanical System
- Project : Part II
- Comprehensive viva
Eligibility Criteria
B. Tech: Sr. Secondary (10+2) in PCM/PCMB with minimum 50% marks from recognized Board / University
Fees Structure
24 Months EMI
₹4,583*
Interest free
Per Semester Fee
₹27,500*
Full Program Fee
₹1,65,000
Meet our Top – Ranked Faculties:
Dr. Narendra Nath Jana
Professor, ME/M. Tech and PhD
Dr. Adhir Baran Chattopadhyay
Professor, ME/M. Tech and PhD
DR SUDIPTA ACHARYA
Associate Professor, ME/M. Tech and PhD
DR SUNANDA HAZRA
Associate Professor, ME/M. Tech and PhD
DR. V SIVA RAMA BRAMAIH
Associate Professor, ME/M. Tech and PhD
Dr. Subhro Jyoti Sarkar
Associate Professor, B.TECH., M.TECH., PH.D.
SUDESHNA NATH
Assistant Professor, M.E/M.Tech
PALLOBI DEB ROY
Associate Professor, M.E/M.Tech
PRIYA ADAK
Associate Professor, M.E/M.Tech
Dipak Kumar Shaw
Associate Professor, M.E/M.Tech
Sudip Kumar Ghorui
Associate Professor, M.E/M.Tech
Soubhik Bagchi
Associate Professor, M.E/M.Tech
Roshan Ghosh
Associate Professor, M.E/M.Tech
Upraise your Career Now with BBIT's M.Tech Program.
State-of-the Art Laboratories
Vision
The aim of the department is to deliver quality technical education on par with premier institutions, focusing on excellence in domain knowledge through innovative research and development.
Mission
To impart quality knowledge through dedicated faculty, develop students into future leaders with a broad knowledge base, expand learning beyond the syllabus, and encourage innovative research and development activities involving both faculty and students.
