Department of Mechanical Engineering
Overview
Mechanical engineering is the oldest and 2nd largest engineering discipline. Mechanical engineering provides a solid foundation for professional engineering practices and is concerned with design, development, manufacture, and operation of many types of plants, machinery and Mech –products. This branch of study develops the students ability to apply scientific principles in the design and analysis of mechanical and energy conversion systems. Students are challenged with design problems in most of the major course which provide opportunities of developing creativity in solving real world problems. New areas like Robotics, cryogenic engineering, composite materials, Nano materials & technology, Renewable energy resources etc, have tremendous growth in future. At the outset the students will be able to create innovative ideas to find solution to real world. Problems with new perspective, good practical skills using science and maths concepts. Organising ability, practicing, ability to get on well with people of all types, ability to keep them under pressure and technically to work in a manufacturing area are an asset in the fields.
Programme
Duration:
4 years (Regular) / 3 years (Lateral Entry)
No. of Semesters:
8 (Regular) / 6 (Lateral Entry)
Intake / No. of Seats:
Total - 60 (Government - 30, Management - 30)
Eligibility:
10+2 system of Education. Must have secured a pass in Physics, Chemistry and Mathematics in the qualifying examination.
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Vision
To be a centre of excellence for transforming students into proficient Mechanical Engineers through sustainable practices.
Mission
M1. Impart core fundamental knowledge and necessary skills in Mechanical engineering through innovative teaching and learning methodology
M2. Inculcate critical thinking, ethics, lifelong learning and creativity needed for industry and society
M3. Cultivate the students with all-round competencies, for career, higher education and self employability
PEOs / PSOs / PO
Programme Educational Objectives (PEOs)
PEO1. | Graduates will be prepared for designing mechanical components and systems, with creativity and sustainability |
PEO2. | Graduates will be skilled in the use of modern tools for critical problem solving and analyzing industrial and societal requirements |
PEO3. | Graduates will be prepared with managerial and leadership skills for career and starting up own firms |
Program Specific Outcomes (PSOs)
Engineering Graduates will be able to
PSO1. | Apply the acquired knowledge in mechanical engineering to solve industrial problems using modern tools |
PSO2. | Develop cost effective and eco-friendly mechanical components and systems needed for the industry and society |
Programme Outcomes (PO)
PO1. | Engineering Knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems. |
PO2. | 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. |
PO3. | 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 the public health and safety, and the cultural, societal, and environmental considerations. |
PO4. | Conduct Investigations of Complex Problems:Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions. |
PO5. | 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. |
PO6. | The Engineer and Society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. |
PO7. | Environment and Sustain ability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. |
PO8. | Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. |
PO9. | Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse teams, and in multi disciplinary settings. |
PO10. | 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. |
PO11. | Project Management and Finance: Demonstrate knowledge and understanding of the 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 multi disciplinary environments. |
PO12. | 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. |
Job Profiles
Job opportunities in India and Abroad. ( Both Public & Private Sectors)
Larger number of job opportunities in automobile, petroleum, Oil &Gas, Transport, Airport, Aircraft, Defence, Railways, Steel Industries, Power plants, major Manufacturing sector, various Public and Private Sectors in India and Abroad.
Employment Growth in Mechanical Engineering in India by 2025 – 2030.
( Expected to be positive and growing, driven by multiple industry trends, technological advancements, and government initiatives )
Key Growth Drivers :
- Industrial Growth and Infrastructure Development:
- Government Initiatives: Programs like Make in India, Atmanirbhar Bharat, and Smart Cities Mission will boost domestic manufacturing, construction, and infrastructure development, which requires mechanical engineers.
- Manufacturing: As India aims to become a global manufacturing hub, mechanical engineers will be needed for industries such as automotive, aerospace, energy, construction, and heavy machinery.
- Infrastructure Projects: High-speed rail, roads, bridges, and smart cities will drive demand for mechanical engineers in design, construction, and maintenance.
- Automotive Industry Advancements.
- Electric Vehicles (EV): As the transition to EVs accelerates, the demand for mechanical engineers with expertise in electric power trains, battery technology, and thermal management will increase.
- Autonomous and Connected Vehicles: Mechanical engineers will be involved in the design and manufacturing of advanced automotive systems, such as AI-based safety systems, autonomous driving technologies, and vehicle-to-everything (V2X) communication.
- Renewable Energy and Sustainability.
- Wind, Solar, and Hydro Energy: With the rise in renewable energy adoption, mechanical engineers will be involved in the design, installation, and maintenance of solar panels, wind turbines, and other green technologies.
- Energy Efficiency: As industries seek to reduce energy consumption, mechanical engineers will play a critical role in designing energy-efficient systems and heat recovery systems.
- Robotics and Automation
- The rise of industrial automation and robotics in manufacturing plants, warehouses, and service industries will drive demand for mechanical engineers who can design and integrate robotic systems, automated assembly lines, and precision equipment.
- Additionally, additive manufacturing (3D printing) will require mechanical engineers with expertise in material science and CAD/CAM systems.
- Aerospace and Defense
- Aerospace Manufacturing: The Indian aerospace sector, with increasing investments in space exploration, aircraft manufacturing, and defense systems, will need mechanical engineers in areas such as propulsion systems, thermal management, and advanced materials.
- Defense Projects: India’s push for indigenous defense technology (e.g., fighter jets, drones, etc.) will require highly skilled mechanical engineers in defense manufacturing.
- Industrial Internet of Things (IIoT) and Smart Manufacturing.
- As India modernizes its manufacturing processes, the integration of IoT with traditional manufacturing will drive the need for mechanical engineers who are well-versed in data analytics, sensor integration, and predictive maintenance in industrial settings.
- The increasing adoption of Industry 4.0 technologies will further promote the demand for engineers skilled in mechatronics and automation.
- Thermal Power and HVAC Systems.
- Power Plants: Mechanical engineers will continue to be essential in the operation and maintenance of thermal power plants, nuclear energy plants, and gas turbines.
- HVAC (Heating, Ventilation, and Air Conditioning): With the rise in urbanization and increasing demand for climate control systems, mechanical engineers will be in demand for designing and maintaining HVAC systems for large commercial buildings, hospitals, and smart homes.
- Global Trends and International Opportunities
- Offshoring and Outsourcing: As global companies look to set up manufacturing plants in India due to its competitive labor cost and skilled workforce, opportunities for mechanical engineers will arise in areas like quality control, research and development, and production engineering.
- Collaborations: : Increased foreign direct investment (FDI) and joint ventures with international companies in sectors like automotive and electronics will create global job prospects for Indian mechanical engineers.
Job Roles for Mechanical Engineers :
- Design Engineer (Product and Process)
- Manufacturing Engineer
- Project Manager (Infrastructure/Automotive/Heavy Machinery)
- Robotics Engineer
- Automotive Engineer (EV, Autonomous Systems)
- Energy Systems Engineer (Renewable, HVAC, Power Generation)
- Aerospace Engineer
- Maintenance Engineer (Industrial Plants, Power Plants, HVAC Systems)
- CAD/CAE Engineer
- Quality Control and Assurance Engineer
- R&D Engineer (Materials, Robotics, Automotive)
- Defense Equipment Engineer
- Mechatronics Engineer
Sectors with High Employment Potential
- Automotive and Electric Vehicle Industry
- Renewable Energy (Solar, Wind, etc.)
- Aerospace and Defense
- Construction and Infrastructure
- Manufacturing and Automation
- Robotics and Mechatronics
- Energy Systems (Thermal, Gas, Nuclear, HVAC)
Key Growth Drivers :
- Automotive and Electric Vehicle (EV) Industry Key Drivers:
- EV Transition: India’s growing push towards electric vehicles, driven by government initiatives like FAME India (Faster Adoption and Manufacturing of Hybrid and Electric Vehicles), will significantly expand job opportunities for mechanical engineers.
- Automotive Innovations: Development of autonomous vehicles, connected car technologies, and advanced driver-assistance systems (ADAS) will require mechanical engineers skilled in powertrains, thermal management, and battery design.
Roles:
- EV Design Engineer: Focused on developing battery management systems, powertrains, and thermal management systems for electric vehicles.
- Manufacturing Engineer: Involved in scaling up production for electric vehicle components and assembly.
- Automotive Testing and Validation Engineer: Ensuring that EV systems meet safety, performance, and regulatory standards.
- Powertrain Engineer: Specializing in the development of engines, transmission systems, and electric motors.
- Automotive R&D Engineer: Working on improving the design and functionality of automotive components.
- Renewable Energy Sector (Solar, Wind, etc.) Key Drivers:
- Green Energy Shift: India’s focus on achieving 500 GW of renewable energy by 2030 will create a large demand for engineers in the wind, solar, and hydropower sectors.
- • Energy Efficiency: As industries move toward energy-efficient systems, mechanical engineers will be critical in designing systems that minimize power consumption, optimize energy use, and integrate renewable sources.
Roles:
- • Wind Energy Engineer: Specializing in the design, installation, and maintenance of wind turbines.
- • Solar Systems Engineer: Focused on the installation and optimization of solar panels and solar thermal systems.
- • Energy Storage Engineer: Working with batteries and energy storage systems to optimize energy storage solutions for solar and wind energy.
- • Renewable Energy Project Manager: Overseeing the construction and maintenance of renewable energy plants.
- • Thermal Engineer: Focusing on solar thermal plants, heat exchangers, and energy recovery systems.
- Aerospace and Defense Key Drivers:
- • Indigenous Defense Manufacturing: India is focusing on manufacturing fighter jets, drones, and space exploration technology. This will drive the need for engineers specializing in propulsion, thermal management, and advanced materials.
- • Aerospace Expansion: As the Indian aerospace sector grows with increasing investments in aircraft design, space exploration, and satellite systems, mechanical engineers will be needed to design and test aerospace components and systems.
Roles:
- Aerospace Engineer: Involved in the design and development of aircraft and pacecraft components, particularly in areas like propulsion, avionics, and aerodynamics.
- Defense Manufacturing Engineer: Working on the design, testing, and maintenance of defense equipment like tanks, aircraft, and drones.
- Materials Engineer: Focusing on developing lightweight and durable materials for aerospace and defense systems.
- Thermal Systems Engineer: Specializing in thermal control systems for spacecraft and aircraft, including heat shields, thermal insulation, and engine cooling systems.
- Space Systems Engineer: Involved in the design of satellites, spacecraft, and space exploration technologies.
- Construction and Infrastructure Key Drivers:
- Government Infrastructure Initiatives: With ongoing projects under schemes like Smart Cities Mission and the Bharatmala Project for highways, there will be increasing demand for mechanical engineers in construction equipment design, HVAC systems, and project management.
- Sustainability in Construction: As India adopts green building practices, mechanical engineers will play a role in integrating sustainable materials, energy-efficient HVAC systems, and smart building technologies.
Roles:
- Construction Equipment Engineer: Involved in the design and development of construction machinery like cranes, bulldozers, and excavators.
- HVAC Engineer: Designing and maintaining heating, ventilation, and air conditioning systems for buildings, industrial facilities, and infrastructure projects.
- Project Manager (Infrastructure): Overseeing large infrastructure projects, ensuring that they are completed on time and within budget.
- Sustainability Engineer: Designing green buildings with energy-efficient mechanical systems.
- Site Engineer: Managing and supervising the day-to-day operations on construction sites.
- Manufacturing and Automation Key Drivers:
- Industry 4.0: The adoption of smart manufacturing, robotics, and automation systems in the industrial sector will require mechanical engineers with expertise in IoT, CAD/CAM, PLC systems, and robotic systems integration.
- Additive Manufacturing: The growth of 3D printing in prototyping and production is an emerging area, with mechanical engineers playing a key role in its implementation.
Roles:
- Automation Engineer: Specializing in the design and integration of automated systems in factories, including robotic arms and conveyor systems.
- Manufacturing Process Engineer: Focused on optimizing production lines, minimizing waste, and ensuring the highest standards of quality.
- Additive Manufacturing Engineer: Working with 3D printing technology to design and manufacture components, including prototypes and finished parts.
- Robotics Engineer: Designing robotic systems for assembly lines, material handling, and precision tasks.
- Industrial IoT Engineer: Integrating sensors, data analytics, and predictive maintenance systems into manufacturing processes.
- Robotics and Mechatronics Key Drivers:
- Growth in Automation: The rise of robotics in sectors like manufacturing, logistics, healthcare, and agriculture will create new opportunities for mechanical engineers to design and optimize robotic systems.
- Mechatronics Systems: As machines become smarter with embedded sensors, actuators, and computing systems, engineers with a multidisciplinary skill set in mechanical, electrical, and software systems will be in high demand.
Roles:
- Robotics Design Engineer: Developing and building robots for various industries, including manufacturing, healthcare, and consumer products.
- Mechatronics Engineer: Designing intelligent machines that integrate mechanical, electrical, and software components.
- Automation Test Engineer: Testing and validating automated systems to ensure efficiency and reliability.
- System Integration Engineer: Overseeing the integration of robotic and automated systems into existing infrastructure.
Faculty
S.No. | Name | Designation | Date of Joining | Qualification | Nature of Association (Regular / Contract / Adjunct) | Profile |
1 | Dr. SHUNMUGASUNDARAM M |
Professor | 09/07/2022 | M.E., Ph.D. | Regular | View |
2 | Dr. JANNARTHANAN B |
Professor | 27/12/2019 | M.E., Ph.D. | Regular | View |
3 | Dr. RAMESH G |
Associate Professor | 19/10/2019 | M.E., Ph.D. | Regular | View |
4 | Dr. PRASATH S |
Associate Professor | 19/07/2007 | M.E., Ph.D. | Regular | View |
5 | Dr. SARAVANAN A |
Associate Professor | 17/01/2022 | M.E., Ph.D | Regular | View |
6 | Mr. SHANMUGASELVAM P |
Assistant Professor | 15/07/2023 | M.E., (Ph.D) | Regular | View |
7 | Mr. SURESH M |
Assistant Professor | 28/02/2022 | M.E., M.Tech. | Regular | View |
8 | Mr. SYED ABUTHAHIR S |
Assistant Professor | 19/06/2018 | M.E., (Ph.D) | Regular | View |
9 | Mr. MOHAN S R |
Assistant Professor | 31/08/2020 | M.Tech. | Regular | View |
10 | Mr. MUHAMED IRFAN AA |
Assistant Professor | 13/06/2017 | M.E. | Regular | View |
11 | Mr. SAKTHIVEL D |
Assistant Professor | 24/08/2020 | M.E. | Regular | View |
12 | Mr.RAJESH J |
Assistant Professor | 07/10/2017 | M.E. | Regular | View |
13 | Mr. VIGNESHWARAN V |
Assistant Professor | 02/11/2020 | M.Tech., (Ph.D) | Regular | View |
14 | Mr. VINOTHKUMAR K K |
Assistant Professor | 28/02/2022 | M.E., (Ph.D) | Regular | View |
15 | Mr. THARANIKUMAR L |
Assistant Professor | 01/04/2022 | M.E., (Ph.D) | Regular | View |
16 | Mr. SUNIL KUMAR K |
Assistant Professor | 15/07/2023 | M.E., (Ph.D) | Regular | View |
S.No. | Name | Qualification | Designation | Area of Specialization |
---|---|---|---|---|
1 | Dr. SHUNMUGASUNDARAM M |
M.E., Ph.D. | Professor | Celluar Manufacturing System |
2 | Dr. SENTHIL KUMAR R |
M.E., Ph.D. | Professor | Powder Metallurgy |
3 | Dr. JANNARTHANAN B |
M.E., Ph.D | Professor | Engineering Deisgn & Vibration |
4 | Dr. RAMESH G |
M.E., Ph.D | Associate Professor | Composite Material |
5 | Dr. PRASATH S |
M.E., Ph.D | Associate Professor | Welding Technology |
6 | Dr. SARAVANAN A |
M.E., Ph.D | Associate Professor | Engineering Design |
7 | Mr. SURESH M |
M.E. | Assistant Professor | Thermal Engineering |
8 | Mr. SYED ABUTHAHIR S |
M.E. | Assistant Professor | Manufacturing Technology |
9 | Mr. MOHAN S R |
M.Tech. | Assistant Professor | CAD/CAM |
10 | Mr. MUHAMED IRFAN AA |
M.E. | Assistant Professor | Thermal Engineering |
11 | Mr. SAKTHIVEL D |
M.E. | Assistant Professor | Engineering Design |
12 | Mr.RAJESH J |
M.E. | Assistant Professor | Industrial Mettallurgy |
13 | Mr. MOHAMED YAZZIR M |
M.E. | Assistant Professor | Engineering Design |
14 | Mr. JABIN J |
M.E., (Ph.D) | Assistant Professor | Thermal Engineering |
15 | Mr. VIGNESHWARAN V |
M.Tech., (Ph.D) | Assistant Professor | Thermal Engineering |
16 | Mr. VINOTHKUMAR K K |
M.E., (Ph.D) | Assistant Professor | Metal Matrix Composites |
17 | Mr. THARANIKUMAR L |
M.E., (Ph.D) | Assistant Professor | Manufacturing Technology |
18 | Ms. YAMINI S |
M.E. | Assistant Professor | Machine Design |
S.No. | Name | Qualification | Designation | Area of Specialization |
---|---|---|---|---|
1 | Dr. SENTHIL KUMAR R |
M.E., Ph.D. | Professor | Powder Metallurgy |
2 | Dr. JANNARTHANAN B |
M.E., Ph.D | Professor | Engineering Deisgn & Vibration |
3 | Dr. RAMESH G |
M.E., Ph.D | Associate Professor | Composite Material |
4 | Dr. PRASATH S |
M.E., Ph.D | Associate Professor | Welding Technology |
5 | Mr. SYED ABUTHAHIR S |
M.E. | Assistant Professor | Manufacturing Technology |
6 | Mr. MOHAN S R |
M.Tech. | Assistant Professor | CAD/CAM |
7 | Mr. MUHAMED IRFAN AA |
M.E. | Assistant Professor | Thermal Engineering |
8 | Mr. SAKTHIVEL D |
M.E. | Assistant Professor | Engineering Design |
9 | Mr.RAJESH J |
M.E. | Assistant Professor | Industrial Mettallurgy |
10 | Mr. MOHAMED YAZZIR M |
M.E. | Assistant Professor | Engineering Design |
11 | Mr. JABIN J |
M.E., (Ph.D) | Assistant Professor | Thermal Engineering |
12 | Mr. VIGNESHWARAN V |
M.Tech., (Ph.D) | Assistant Professor | Thermal Engineering |
13 | Mr. SARAVANAN P |
M.E., (Ph.D) | Assistant Professor | CAD/CAM |
14 | Mr. JAGAVEERA PANDIAN |
M.E. | Assistant Professor | Thermal Engineering |
15 | Mr. UIKATTUDASS E |
M.E. | Assistant Professor | Aeronautical Engineering |
16 | Mr. NAVEENRAJAN M |
M.E. | Assistant Professor | Energy Engineering |
S.No. | Name | Qualification | Designation | Area of Specialization |
---|---|---|---|---|
1 | Dr. SENTHIL KUMAR R |
M.E., Ph.D. | Professor | Powder Metallurgy |
2 | Dr. JANNARTHANAN B |
M.E., Ph.D | Professor | Engineering Deisgn & Vibration |
3 | Dr. RAMESH G |
M.E., Ph.D | Associate Professor | Composite Material |
4 | Dr. PRASATH S |
M.E., Ph.D | Associate Professor | Welding Technology |
5 | Mr. SYED ABUTHAHIR S |
M.E. | Assistant Professor | Manufacturing Technology |
6 | Mr. MOHAN S R |
M.Tech. | Assistant Professor | CAD/CAM |
7 | Mr. MOHAMED YAZZIR M |
M.E. | Assistant Professor | Engineering Design |
8 | Mr. SAKTHIVEL D |
M.E. | Assistant Professor | Engineering Design |
9 | Mr.RAJESH J |
M.E. | Assistant Professor | Industrial Mettallurgy |
10 | Mr. MUHAMED IRFAN AA |
M.E. | Assistant Professor | Thermal Engineering |
11 | Mr. JABIN J |
M.E., (Ph.D) | Assistant Professor | Thermal Engineering |
12 | Mr. VIGNESHWARAN V |
M.Tech., (Ph.D) | Assistant Professor | Thermal Engineering |
13 | Mr. SARAVANAN P |
M.E., (Ph.D) | Assistant Professor | CAD/CAM |
14 | Mr. ANBURAJ A |
M.E. | Assistant Professor | Manufacturing Engineering |
15 | Mr. JAGAVEERA PANDIAN |
M.E. | Assistant Professor | Thermal Engineering |
16 | Mr. UIKATTUDASS E |
M.E. | Assistant Professor | Aeronautical Engineering |
17 | Mr. NAVEENRAJAN M |
M.E. | Assistant Professor | Energy Engineering |
18 | Mr. SARAVANAN A |
M.E., (Ph.D) | Assistant Professor | Engineering Deisgn |
S.No. | Name of the Lab | Facility Available | Courses_Offered | Virtual Link / ICT Tools | Soft copy of Lab Record |
---|---|---|---|---|---|
1 | CAD Lab | View Details | ME8711 - Simulation and Analysis ME8681 - CAD / CAM ME8381 - Computer Aided Machine Drawing |
View View View |
Download Download Download |
2 | WORKSHOP | View Details |
ME8361 - Manufacturing Technology 1 ME8462 - Manufacturing Technology II GE8261 - Engineering Practices |
View View View |
Download Download Download |
3 | Thermal Engineering Lab | View Details | ME8512 - Thermal Engineering |
View | Download |
4 | Metrology and Measurements Lab | View Details | ME8513 - Metrology and Measurements |
View | Download |
5 | Kinematics and Dynamics Lab | View Details | ME8511 - Kinematics and Dynamics ME3581 - Metrology and Dynamics |
View View |
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Academics
Anna university Syllabus
BE - 2021 Syllabus | ![]() |
BE - 2017 Syllabus | ![]() |
BE - 2017 Open Electives | ![]() |
2021 Regulation Course Materials
S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
---|---|---|---|---|---|---|---|
1 | GE3251 | Engineering Graphics | View | View | View | View | |
2 | ME3351 | Engineering Mechanics | View | View | View | View | |
3 | MA3351 | Transforms and Partial Differential Equations | View | View | View | View | |
4 | ME3391 | Engineering Thermodynamics | View | View | View | View | |
5 | CE3391 | Fluid Mechanics and Machinery | View | View | View | View | |
6 | ME3392 | Engineering Materials and Metallurgy | View | View | View | View | |
7 | ME3393 | Manufacturing Processes | View | View | View | View | |
8 | ME3491 | Theory of Machines | View | View | View | View | |
9 | ME3451 | Thermal Engineering | View | View | View | View | |
10 | ME3492 | Hydraulics and Pneumatics | View | View | View | View | |
11 | ME3493 | Manufacturing Technology | View | View | View | View | |
12 | CE3491 | Strength of Materials | View | View | View | View | |
13 | GE3451 | Environmental Sciences and Sustainability | View | View | View | View | |
14 | ME3591 | Design of Machine Elements | View | View | View | View | |
15 | ME3592 | Metrology and Measurements | View | View | View | View | |
16 | CME387 | Non -Traditional Machining Process | View | View | View | View | |
17 | CME395 | Casting and Welding Process | View | View | View | View | |
18 | CME365 | Renewable Energy Technologies | View | View | View | View | |
19 | MX3084 | Disaster Risk Reduction & Management | View | View | View | View | |
SUBJECTS HANDLED FOR SERVICE DEPARTMENTS | |||||||
1 | V/CSE / IT | OME551 | Energy Conservation and Management | View | View | View | View |
2 | VII/CSE/IT | OMF751 | Lean Six Sigma (Open Elective– II) | View | View | View | View |
3 | II / EEE | BE3255 | Basic Civil and Mechanical Engineering | View | View | View | View |
2017 Regulation Course Materials
S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
---|---|---|---|---|---|---|---|
1 | MA8452 | Statistics and Numerical Methods | View | View | View | View | |
2 | ME8492 | Kinematics of Machinery | View | View | View | View | |
3 | ME8451 | Manufacturing Technology – II | View | View | View | View | |
4 | ME8491 | Engineering Metallurgy | View | View | View | View | |
5 | CE8395 | Strength of Materials for Mechanical Engineers | View | View | View | View | |
6 | ME8493 | Thermal Engineering- I | View | View | View | View | |
7 | ME8595 | Thermal Engineering- II | View | View | View | View | |
8 | ME8593 | Design of Machine Elements | View | View | View | View | |
9 | ME8501 | Metrology and Measurements | View | View | View | View | |
10 | ME8594 | Dynamics of Machines | View | View | View | View | |
11 | OR0551 | Renewable Energy Sources (Open Elective– I) | View | View | View | View | |
12 | ME8651 | Design of Transmission Systems | View | View | View | View | |
13 | ME8691 | Computer Aided Design and Manufacturing | View | View | View | View | |
14 | ME8693 | Heat and Mass Transfer | View | View | View | View | |
15 | ME8692 | Finite Element Analysis | View | View | View | View | |
16 | ME8694 | Hydraulics and Pneumatics | View | View | View | View | |
17 | ME8091 | Automobile Engineering (Professional Elective– I) | View | View | View | View | |
18 | ME8791 | Mechatronics | View | View | View | View | |
19 | ME8792 | Power Plant Engineering | View | View | View | View | |
20 | ME8793 | Process Planning and Cost Estimation | View | View | View | View | |
21 | OMF751 | Lean Six Sigma (Open Elective– II) | View | View | View | View | |
22 | ME8073 | Unconventional Machining Processes (Professional Elective– II) | View | View | View | View | |
23 | ME8097 | Non Destructive Testing and Evaluation (Professional Elective– III) | View | View | View | View | |
24 | MG8591 | Principles of Management | View | View | View | View | |
25 | IE8693 | Production Planning and Control (Professional Elective– IV) | View | View | View | View | |
SUBJECTS HANDLED FOR SERVICE DEPARTMENTS | |||||||
1 | III/EEE | ME8792 | Power Plant Engineering | View | View | View | View |
Innovation Teaching Methods
S.No. | Subject Code | Subject Name | ITM Tool | |
---|---|---|---|---|
1 | ME3351 | Engineering Mechanics | View | |
2 | ME3391 | Engineering Thermodynamics | View | |
3 | CE3391 | Fluid Mechanics and Machinery | View | |
4 | ME3392 | Engineering Materials and Metallurgy | View | |
5 | ME3393 | Manufacturing Processes | View | |
6 | ME8595 | Thermal Engineering- II | View | |
7 | ME8593 | Design of Machine Elements | View | |
8 | ME8501 | Metrology and Measurements | View | |
9 | ME8594 | Dynamics of Machines | View | |
10 | ME8792 | Power Plant Engineering | View | |
11 | ME8793 | Process Planning and Cost Estimation | View | |
12 | ME8097 | Non Destructive Testing and Evaluation | View | |
13 | ME8073 | Unconventional Machining Processes | View | |
14 | ME3491 | Theory of Machines | View | |
15 | ME3492 | Hydraulics and Pneumatics | View | |
16 | ME3493 | Manufacturing Technology | View | |
17 | CE3491 | Strength of Materials | View | |
18 | GE3451 | Environmental Sciences and Sustainability | View | |
19 | ME8651 | Design of Transmission Systems | View | |
20 | ME8691 | Computer Aided Design and Manufacturing | View | |
21 | ME8693 | Heat and Mass Transfer | View | |
22 | ME8692 | Finite Element Analysis | View | |
23 | ME8694 | Hydraulics and Pneumatics | View | |
24 | MG8591 | Principles of Management | View | |
25 | IE8693 | Production Planning and Control | View | |
26 | OME551 | Energy Conservation and Management | View | |
27 | OMF751 | Lean Six Sigma | View | |
28 | ME3451 | Thermal Engineering | View | |
29 | ME8073 | Unconventional Machining Process | View | |
30 | ME8793 | Process Planning and Cost Estimation | View | |
31 | CME387 | Non-Traditional Machining Process | View | |
32 | GE3251 | Engineering Graphics | View |
2017 Regulation Course Materials
S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
---|---|---|---|---|---|---|---|
1 | MA8452 | Statistics and Numerical Methods | View | View | View | View | |
2 | ME8492 | Kinematics of Machinery | View | View | View | View | |
3 | ME8451 | Manufacturing Technology – II | View | View | View | View | |
4 | ME8491 | Engineering Metallurgy | View | View | View | View | |
5 | CE8395 | Strength of Materials for Mechanical Engineers | View | View | View | View | |
6 | ME8493 | Thermal Engineering- I | View | View | View | View | |
7 | ME8595 | Thermal Engineering- II | View | View | View | View | |
8 | ME8593 | Design of Machine Elements | View | View | View | View | |
9 | ME8501 | Metrology and Measurements | View | View | View | View | |
10 | ME8594 | Dynamics of Machines | View | View | View | View | |
11 | OR0551 | Renewable Energy Sources (Open Elective– I) | View | View | View | View | |
12 | ME8651 | Design of Transmission Systems | View | View | View | View | |
13 | ME8691 | Computer Aided Design and Manufacturing | View | View | View | View | |
14 | ME8693 | Heat and Mass Transfer | View | View | View | View | |
15 | ME8692 | Finite Element Analysis | View | View | View | View | |
16 | ME8694 | Hydraulics and Pneumatics | View | View | View | View | |
17 | ME8091 | Automobile Engineering (Professional Elective– I) | View | View | View | View | |
18 | ME8791 | Mechatronics | View | View | View | View | |
19 | ME8792 | Power Plant Engineering | View | View | View | View | |
20 | ME8793 | Process Planning and Cost Estimation | View | View | View | View | |
21 | OMF751 | Lean Six Sigma (Open Elective– II) | View | View | View | View | |
22 | ME8073 | Unconventional Machining Processes (Professional Elective– II) | View | View | View | View | |
23 | ME8097 | Non Destructive Testing and Evaluation (Professional Elective– III) | View | View | View | View | |
24 | MG8591 | Principles of Management | View | View | View | View | |
25 | IE8693 | Production Planning and Control (Professional Elective– IV) | View | View | View | View | |
SUBJECTS HANDLED FOR SERVICE DEPARTMENTS | |||||||
1 | III/EEE | ME8792 | Power Plant Engineering | View | View | View | View |
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