Mechanical Engineering
Home / Mechanical Engineering
The Department of Mechanical Engineering, established in 2008, strives to deliver quality technical education and practical exposure in the field of Mechanical Engineering. The department emphasizes a strong understanding of fundamental mechanical engineering disciplines, including manufacturing technology, thermal engineering, machine design, and fluid mechanics, supported by modern laboratories and experiential learning methods.
The program is designed to develop skilled, innovative, and industry-oriented mechanical engineers with the ability to apply engineering principles to design, production, energy systems, and industrial operations. The department also focuses on professional ethics, teamwork, problem-solving skills, and sustainable engineering practices, preparing graduates to meet the dynamic demands of industry and society
Vision
To be a globally recognized centre of excellence in Mechanical Engineering education and research, fostering innovation, entrepreneurship, ethical practices, and sustainable engineering solutions for societal and industrial development.
Mission
- To impart quality education in Mechanical Engineering through outcome-based teaching, experiential learning, and interdisciplinary collaboration.
- To promote research, innovation, and technological advancement in core and emerging areas of mechanical engineering to solve real-world industrial and societal problems.
- To inculcate professional ethics, leadership, and lifelong learning skills among students to meet global standards and industry expectations.
- To strengthen industry–institute interaction and community engagement for sustainable development and technological growth.
| No. Seats | Duration | Eligibility Criteria |
| 30 | 4 Years | 12th Pass General/ OBC Category Student Having 45% Marks in PCM. 12th Pass SC/ST Category Students Having 40% marks in PCM. |
- Basic Mechanical Engineering Lab (BME)
- Engineering Mechanics Lab
- Workshop Practice Lab
- Instrumentation & Control Lab
- Theory of Machine Lab
- Fluid Mechanics Lab
- Manufacturing Technology Lab
- AUTOCAD Lab
- Thermal Lab
- Material Technology Lab
- Strength of Material Lab
- Manufacturing Process Lab
- CAD-CAM Lab
- Internal Combustion Engine Lab (IC)
- Automobile Engineering Lab
- Mechanical Vibration Lab
- Heat and Mass Transfer Lab (HMT)
Semester | Syllabus | Scheme |
B.Tech ME III | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ME%20III%20Sy080818010055.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ME131022123203.pdf |
B.Tech ME IV | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ME%20IV%20Sy100719011910.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/BTech_ME_IV_Sem220422044101.pdf |
B.Tech ME V | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/V%20Sem%20ME%20_Sy060719034258.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ME131022010554.pdf |
B.Tech ME VI | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/ME_6_Sem_Syllabus311219035027.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/VI%20Sem%20ME161219111051.pdf |
B.Tech ME VII | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/Mechanical_100720030154.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/VII_ME290121043954.pdf |
B.Tech ME VIII | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/VIII_ME_SY_300121025723.pdf | https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/VIII_ME290121010759.pdf |
PEO 1: Graduates will pursue successful careers in core mechanical industries, research organizations, or higher education.
PEO 2: Graduates will apply mechanical engineering principles to design, analyze, and optimize mechanical and thermal systems.
PEO 3: Graduates will demonstrate professional ethics, teamwork, project management, and leadership skills.
PEO 4: Graduates will contribute to sustainable engineering practices and engage in lifelong learning and innovation.
PSO 1: Mechanical System Design & Analysis
Graduates will be able to apply principles of mechanics, thermodynamics, materials science, and manufacturing processes to design, analyze, and optimize mechanical systems.
PSO 2: Thermal & Manufacturing Technologies
Graduates will be able to develop and implement solutions in thermal engineering, energy systems, automation, and advanced manufacturing technologies for industrial applications.
PSO 3: Professional Practice & Innovation
Graduates will demonstrate engineering ethics, teamwork, project management, and entrepreneurial skills to contribute effectively in industry, research, and sustainable development.
PO1: Engineering Knowledge
Apply knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to solve complex engineering problems and develop appropriate technical solutions.
PO2: Problem Analysis
Identify, formulate, review research literature, and analyze complex engineering problems using first principles of mathematics, natural sciences, and engineering sciences to arrive at substantiated conclusions.
PO3: Design / Development of Solutions
Design solutions for complex engineering problems and design system components or processes that meet specified needs with appropriate consideration for public health, safety, cultural, societal, and environmental factors.
PO4: Conduct Investigations of Complex Problems
Use research-based knowledge and methods, including design of experiments, data analysis, and interpretation of results, to investigate complex engineering problems and provide valid conclusions.
PO5: Modern Tool Usage
Create, select, and apply appropriate modern engineering and IT tools—including modeling, simulation, and data analytics tools—with an understanding of their limitations.
PO6: The Engineer and Society
Apply contextual knowledge to assess societal, health, safety, legal, and cultural issues and the responsibilities relevant to professional engineering practice.
PO7: Environment and Sustainability
Understand the impact of engineering solutions in societal and environmental contexts and demonstrate knowledge of sustainable development principles.
PO8: Ethics
Apply ethical principles, professional ethics, and responsibilities and adhere to engineering norms and standards in professional practice.
PO9: Individual and Team Work
Function effectively as an individual, and as a member or leader in diverse and multidisciplinary teams.
PO10: Communication
Communicate effectively on complex engineering activities with the engineering community and society at large through reports, presentations, documentation, and clear instructions.
PO11: Project Management and Finance
Demonstrate knowledge and understanding of engineering management principles and apply these to manage projects in multidisciplinary environments.
PO12: Life-Long Learning
Recognize the need for, and engage in, independent and life-long learning in the broadest context of technological change.