B.Tech in Mechanical Engineering (ME)
DURATION: 3 YEARS
Become Leaders of Tomorrow!
The Bachelor of Technology (B.Tech.) in Mechanical Engineering at BBIT College, Kolkata, is designed to cultivate critical thinking and problem-solving skills in students, enabling them to design and develop innovative products and systems. The program emphasizes the use of analytical tools to navigate design and manufacturing constraints, expands understanding of manufacturing technologies and processes, and enhances collaboration and communication skills through teamwork.
Students benefit from hands-on experience in well-equipped labs and workshops, integrating theoretical knowledge with practical application. The program focuses on project-based, research-led learning that addresses real-world problems, allowing students to apply mechanical engineering concepts to create and solve a variety of challenges.
The B.Tech. Mechanical Engineering course adopts a comprehensive approach to develop problem-solving, project management, and leadership skills, preparing students to excel in diverse industries. BBIT College is committed to training students to become impactful professionals and innovators, fostering a career development path that is immersive, integrative, and multi-dimensional.
Program Outcomes (POs):
Engineering knowledge
Apply the knowledge of natural sciences, engineering fundamentals, and specialized knowledge to the solution of real-life problems.
Problem analysis
Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
Design/development of solutions
Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for public health and safety, and cultural, societal, and environmental considerations.
Conduct investigations of complex problems
Use research-based knowledge and research methods including the design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
Modern tool usage
Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
The engineer and society
Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal, and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
Environment and sustainability
Understand the impact of professional engineering solutions in societal and environmental contexts and demonstrate the knowledge of, and need for, sustainable development.
Ethics
Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice.
Individual and team work
Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
Communication
Communicate effectively on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
Project management and finance
Demonstrate knowledge and understanding of engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
Life-long learning
Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
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 Educational Objectives (PEOs) of Civil Engineering Department:
Domain Knowledge
To equip graduates in Civil Engineering with fundamental concepts of basic science, engineering knowledge, and technical competency to work effectively in various inter-disciplinary fields.
Design and Engineering
Graduates will develop the necessary skill and proficiency for the design of Structural and Hydraulic Systems and their applications.
Projects and Laboratories
To provide practical exposure to modern civil engineering systems and facilitate regular industrial training to meet the basic requirements of the construction process and other industries.
Research and Development
To encourage engineering graduates to undertake innovative research and development work for the benefit of society.
Professional Outlook
To impart professional and ethical attitudes, skills for effective communication, and teamwork in multi-disciplinary environments for contributing effectively to the requirements of industry and academia.
Program Specific Outcomes (PSOs) of Civil Engineering Department:
Core Courses
Students will refresh and apply the basic concepts in natural sciences in engineering in general and Civil Engineering in particular, developing the confidence to solve real-life problems in Civil Engineering through classroom exercises.
Professional Elective Courses
Students will specialize in advanced areas of Civil Engineering, enabling them to take up specialized professions encompassing industry and academia.
Free Elective Courses
Inter-disciplinary skills are developed by cultivating fundamental concepts of mathematics, computer programming, and physics including mechanics towards mechanical, electrical, and electronics engineering from civil engineering.
Projects & Seminars
To instill in students a high sense of professionalism, the ability to work as part of teams on multi-disciplinary projects and in diverse professional environments, necessary for a successful career together with strong technical, communication, and presentation skills.
Potential Job Roles
Design Engineer
Creates and develops new products and systems using computer-aided design (CAD) software.
Manufacturing Engineer
Focuses on enhancing the efficiency and productivity of manufacturing processes.
Quality Control Engineer
Ensures that products meet quality standards by testing and analyzing materials and products.
Maintenance Engineer
Responsible for maintaining and repairing mechanical systems and equipment.
Research and Development Engineer
Develops new technologies and products through research and experimentation.
Automotive Engineering
Design and develop automobiles such as cars, trucks, buses, and motorcycles.
Aerospace Engineering
Design and develop aircraft, spacecraft, and satellites.
Energy Engineering
Focus on renewable energy sources like wind turbines, solar panels, and hydroelectric power systems.
Manufacturing Engineering
Improve manufacturing processes to enhance efficiency, productivity, and quality.
Robotics Engineering
Design and develop robots for industrial and personal use.
Biomechanical Engineering
Develop medical devices, prosthetics, and implants.
Materials Engineering
Create new materials for applications in aerospace, construction, and medical fields.
HVAC Engineering
Design and develop heating, ventilation, and air conditioning systems for buildings.
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-CurricularActivities(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:
PROF.(DR.) PALLAB ROY
Professor & HOD, M.E., PH.D.
PROF.(DR.) SWAPAN KUMAR MAZUMDER
PROFESSOR, MACHINE DESIGN
PROF.(DR.) RAVI SHANKAR SINHA
Associate Professor, B.TECH., M.TECH., PH.D.
Prof. Pallobi Deb Roy
M. Tech., Assistant Professor
PROF.(DR.) SARBENDU ROY
Associate Professor, DIP, A.M.I.E., M.E., PH.D.,
DR. MILAN KRISHNA SINGHA SARKAR
Associate Professor, B.E., M.E., PH.D.
MR. DEBAJIT BANERJEE
ASSISTANT PROFESSOR, B.E., M.E.
MS. SAMRIDDHYA RAY CHOWDHURY
ASSISTANT PROFESSOR, B.Tech., ME
MR. ABHIJIT ROY
ASSISTANT PROFESSOR, M.Tech.
MD. MUMTAZ ALAM ANSARI
ASSISTANT PROFESSOR, B.E., M.TECH.
SHRI DEB DULAL GANGULYI
ASSISTANT PROFESSOR, AIME, ME
SHRI JAYANTA MISTRI
ASSISTANT PROFESSOR, M.Tech.
SHRI ARNAB PAULI
ASSISTANT PROFESSOR, B.TECH.
SHRI DWAIPAYAN GUPTA
ASSISTANT PROFESSOR, B.TECH., M.TECH.
SHRI SOURAV PAUL
ASSISTANT PROFESSOR, B.TECH.
Upraise your Career Now with BBIT's M.Tech Program.
State-of-the Art Laboratories
Vision
To strive for excellence in producing high-quality professionals who will drive technological advancements in mechanical engineering and contribute to socio-economic development.
Mission
To provide fundamental engineering knowledge and practical application by developing state-of-the-art facilities, fostering a conducive academic environment with a focus on competent faculty, enhancing industry-institute collaboration through consultancy projects, and inspiring students to pursue higher education and engage in research and development activities.
