Vission and Mission
To produce world category mechanical engineers by transmission quality technical education and promoting analysis to fulfill current and future challenges for industrial development and create them accountable voters.
1.To create contributive atmosphere for top quality teaching and learning thereby facilitating the scholars acquire sound elementary principles of engineering for higher studies and skilled career.
2.To attain action in teaching and planet issues with trade interaction by having MOUs.
3.To nurture students with a worldwide outlook for property development.
4.To produce engineers with high ethical and moral values.
Program academic Objectives (PEOs):
1.To make students acquire comprehensive data of arithmetic, basic sciences and humanities additionally to robust ideas in technology.
2.To modify graduates develop experience and insight in core areas like mechanical style, thermal engineering, materials and producing science to resolve any application oriented drawback.
3.To develop the angle among students for life-long learning through self-study, analysis and innovation.
4.To make the learners well well-read voters with smart communication skills and moral values
Program Outcomes (POs):
1.Able to apply the essential data of arithmetic, science, engineering fundamentals and comprehensive data of thermal, style and producing engineering to resolve advanced engineering issues.[Engineering Knowledge]
2.Able to determine, formulate and solve technology issues mistreatment principles of engineering sciences, arithmetic and applicable engineering standards. [Problem Analysis]
3.Able to style mechanical systems/components as per engineering standards to fulfill desired specifications and needs with appropriate thought for economy, atmosphere and safety norms. [Design and development of Solutions]
4.Able to conduct investigations by analyzing and decoding knowledge mistreatment tools, techniques and analysis to search out solutions for advanced engineering issues. [Investigation]
5.Able to model, simulate and analyze engineering issues mistreatment trendy tools. [Modern Tool]
6.Able to perceive responsibilities related to the utilization of technology and processes on social group & legal problems with concern in respect of health, safety and culture. [Engineer and Society]
7.Able to perceive modern problems in property development and in providing technological solutions considering impact of socio-economic and environmental aspects. [Environment and Sustainability]
8.Able to perceive and implement moral and skilled responsibilities in engineering apply. [Ethics]
9.Able to operate effectively, as a member or team leader, in corporal punishment comes below multidisciplinary environments. [Team Work]
10.Able to communicate effectively in written, oral and graphical forms and gift the leads to knowledgeable manner. [Communication]
11.Able to apply data of engineering and management principles for effective project and finance management. [Project Management]
12.Able to acknowledge the requirement for long learning and adapt to latest technological developments. [Life Long Learning]
Program Specific Outcomes (PSOs):
1.Able to comprehend varied mechanisms of the industries through internships & industrial visits.
2.Able to style & fabricate the machine parts / merchandise / models through the applying of scientific principles.
English – I (Updated)
Mathematics – I(Updated)
Engineering Mechanics (Updated)
Computer Programming(CP) (Updated)
Environmental Studies(ES) (Updated)
Dynamics of Machinery
Metal Cutting & Machine Tools
Design of Machine Members–II
Thermal Engineering -II
Instrumentation & Control Systems
Refrigeration & Air-conditioning
2. Data Base Management System
3. Waste Water Management
4. Computer Graphics
5. Industrial Robotics
6. Green Engineering Systems
Finite Element Methods
Power Plant Engineering
1. Computational Fluid Dynamics
2. Condition Monitoring
3. Additive Manufacturing
1. Advanced Materials
2. Design for Manufacture
3. Gas Dynamics & Jet Propulsion
Production Planning and Control
Unconventional Machining Processes
1. Thermal Equipment Design
2. Non Destructive Evaluation
3. Quality and Reliability Engineering