Department of Mechanical Engineering
Mechanical Engineering
Driving innovation in design, manufacturing, and energy systems
A comprehensive program blending theoretical foundations with practical applications to prepare engineers for the challenges of the modern industrial world.
- Core Engineering
- Robotics & Automation
- Advanced Manufacturing
- Best Practices & Accomplishments
Program Duration
4 years (8 semesters)
Intake
60 students
Approvals
AICTE And JNTU GV
Program Overview
The Mechanical Engineering program at NSRIET offers a robust curriculum that covers the breadth of the discipline, from thermal and fluid sciences to mechanics and materials. Students are equipped with the skills to design, analyze, and manufacture complex mechanical systems.
- Program Duration
- 4 years (8 semesters)
- Intake
- 60 students
- Approvals
- AICTE And JNTU GV
Vision & Mission
Vision
To be a center of excellence in Mechanical Engineering education and research, producing competent professionals with ethical values.
Mission
- To provide quality education through innovative teaching and learning practices.
- To foster a culture of research and innovation to address industrial and societal needs.
- To develop professional skills and ethical values for holistic development.
Program Educational Objectives (PEOs)
- PEO1: Technical Competence — Apply knowledge of mechanical engineering fundamentals to solve complex technical problems in design, manufacturing, and thermal systems.
- PEO2: Professional Growth — Demonstrate leadership and teamwork skills in multidisciplinary projects and pursue lifelong learning to adapt to technological advancements.
- PEO3: Societal Responsibility — Develop sustainable and ethical engineering solutions that address societal and environmental challenges.
Program Outcomes (POs) & PSOs
Program Outcomes (POs)
Program Specific Outcomes (PSOs)
- PSO1: Design and analyze mechanical components and systems using modern engineering tools.
- PSO2: Apply principles of thermal and manufacturing engineering to solve real-world problems.
Curriculum Highlights & Syllabi
Core Subjects
- ✓Thermodynamics
- ✓Fluid Mechanics
- ✓Strength of Materials
- ✓Manufacturing Technology
- ✓Machine Design
- ✓Heat Transfer
- ✓Robotics
- ✓Automobile Engineering
Learning Outcomes
- Ability to design and analyze mechanical systems
- Proficiency in CAD/CAM and simulation tools
- Understanding of thermal and fluid power systems
- Skills in modern manufacturing and automation
Our curriculum is designed to meet industry standards and provide a strong foundation in mechanical engineering principles.
Academic Calendar
Stay updated with the semester schedule, exams, and important dates.
Select Academic Calendar
Industry Sponsored Laboratory
Dassault Systèmes Lab
Focus: 3D Design & Simulation
Siemens Center of Excellence
Focus: Automation & Robotics
Memoranda of Understanding (MoUs)
Innovative Teaching Methodologies
Professional Development Activities
Faculty Development Program
Regular FDPs on emerging trends in mechanical engineering, including additive manufacturing and robotics.
Student Design Competitions
Participation in national level design and fabrication competitions like Go-Kart and E-Bike challenges.
Research & Innovation
Faculty and student collaborative research in renewable energy and composite materials.
Peer Learning
Student chapters of professional bodies (ASME, SAE) organizing technical events.
Photo Gallery
Workshop on Robotics
Students learning about industrial robot programming and operation.
Project Exhibition
Showcasing innovative mechanical engineering projects.