MECHANICAL ENGINEERING One of the broadest engineering disciplines Study of objects and systems in motion
ABOUT THE DEPARTMENT
The Department of Mechanical Engineering at St. Ann’s College of Engineering and Technology, Chirala was rooted in the year 2004 with an initial intake of 60 with the approval of AICTE. With in a short period of time, the department has taken the concrete shape in carrying out the academic and co-curricular activities in an effective way. The Intake was enhanced to 120 in the academic year 2011-12. The department was accredited by NBA, AICTE, New Delhi in the year 2009 and second time in the year 2012, accredited by Institute of Engineers I E (I),Kolkata
ABOUT HEAD OF THE DEPARTMENT
The department of MECHANICAL ENGINEERING has surpassed many milestones under the able and dynamic leadership of its HOD DR.CH.LAKSHMI TULASI.
Dr.Ch.LAKSHMI TULASI
M.Tech, Ph.D
Professor & HOD- Department of ME.
VISION
To become a center of excellence in the Mechanical Engineering discipline with effective teaching and learning environment to meet the changing and challenging needs of the modern industry and research originations, motivate students to pursue higher studies, ignite entrepreneurship skills to enhance national wealth.
MISSION
- To provide quality education in undergraduate and postgraduate programs, leading to careers as Mechanical Engineering professionals in the industry, government, academic and research organizations.
- To be the preferred choice of students, faculty and industry.
- To impart skills required to analyze, design and manufacture components and systems.
- To develop human resources for the benefit of society and industry through the process of continuous learning and innovative skills in Mechanical Engineering.
Faculty | Topic | Date | Place | Event |
K.Srinivasulu | Redesigning of engg curriculum in the context of outcome based learning | 24,25-Feb-2013 | Jntuk | Workshop |
Ch.Neeraja | Advances in Manufacturing Technology Hard and Soft | 4-16 Feb-2013 | IPE OU Campus Hyderabad | FDP |
Participant Name(s) | Topic | Date | Place | Event |
A. Rajiv Reddy | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
A. Surendra Reddy | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
B.Krishnanjaneyulu | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
D. Avinash Kumar | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
D.Kishore | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
D. Gopi sairam | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
J.Mohan | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
K.Tirumala Rao | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
M.Raviteja | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
P.Chaitanya | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
S.Bhargavi | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
T.Samuel | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
U.Bharath | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
V.Krishna | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
K.Uday kumar | National Robotic Championship Zonal level | 15,16 Feb-2013 | SSN Ongole | Workshop |
A.Rajiv Reddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
A.Surendra Reddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
A.Raviteja | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Veerareddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Krishnanjaneyulu | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Mallikarjunudu | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Sasikesava kumar | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
D.Avinash Kumar | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
D. Mohanbabu | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
D.Tarun | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
G.Gopisairam | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
J.Mohan | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
J.Pream jeevan pradeep | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
K.Tirumala rao | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
K.Radhakrishna murthy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
K.Gopichand | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
M.chakravarthy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
N.Raviteja | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
S.Noor Mohammed Nayeem | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.samuel | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.Venkatesh | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
N.Trinesh | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
p.Mohanakishore | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.Samuel | Technical | 4,5 Jan-2013 | Vignan University | Technical Paper Presentation |
P.Nagarjuna reddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
P. Giridhar reddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
P.Anish kumar | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
R. Arun gopal reddy | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
S.Bhanu vikas | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
S.Musthaq Ahmed | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
S.Sandeep | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
S.Venkata Yeswanth | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.Mohan | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.sai krishna | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
T.Pandu ranga | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
V.Gopi krishna | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
V.Ranadheer | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
V.Sai krishna | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
Y.Tarun kumar | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
Y.Venkata phaniraj | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Naveen | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
B.Bhanu sai murthi | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
Ch.Harish | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
Ch.Vijay | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
K.Chenchu krishna | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
K.Uday ram | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
N.Gopi | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
G.Raman | Robotics | 3,4 Mar-2013 | IIT Chennai | Workshop |
- Program Educational Objectives (PEOs)
- Program Outcomes (POs)
- Program Specific Outcomes (PSOs)
- BOS
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I | To acquire academic excellence with good leadership qualities, ethical codes and aptitude for life-long learning needed for a successful professional career. |
II | To imbibe the necessary attributes for attaining senior Mechanical Engineering positions. |
III | To actively engaged in societal Mechanical Engineering activities such as design and safety, energy optimization & economical agricultural production machinery. |
IV | To Attain professional certifications and growth in the allied streams of Mechanical Engineering. |
V | To Work in research and development organizations to enhance national wealth and security. |
Engineering Graduates will be able to:
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 sustainability: 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 multidisciplinary 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 multidisciplinary 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
Programme specific outcomes
1.Apply their knowledge in in the domain of engineering mechanics, thermal and fluid sciences to solve engineering problems utilizing advanced technology.
2. Effectively apply the principles of design, analysis and implementation of mechanical systems/processes which have been learned as a part of the curriculum.
3. Develop and execute new ideas on product design and development with the help of modern CAD/CAM tools, while ensuring best manufacturing practices.
4. Ability to discover, articulate the local industrial problems and solve with the use of Mechanical Engineering tools for realistic outcomes.
