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DTE Institute Code: 6288

Mechanical Engineering


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History

The department of mechanical engineering was established in the year 2006-07 initially with intake capacity of 60, now it is increased to 120 in the year 2010-11. The department has well experienced and devoted faculty. The department is well equipped with the entire laboratories.

Vision

  • To develop technocrats who satisfies needs of society.

Mission

  • To educate students beyond syllabus.
  • To develop technocrats with practical skill needed by industry.
  • To develop logical thinking of students.
  • To carry out research oriented projects through constant interaction with research organizations and industry.

Program Educational Objectives (PEOs)

Program Educational Objectives (PEOs)

Graduates from the Mechanical Engineering program from BVCOEK are expected to attain or achieve the following Program Educational Objectives (PEOs):

  • PEO-I: To train students to maintain, operate and design various mechanical process, systems and devices by using fundamental and advance knowledge in Mechanical Engineering.
  • PEO-II: Expertise to accept future challenges in their discipline and acquire depth of knowledge and understanding a specialized area where they can better serve.
  • PEO-III: To develop techno excellent students useful for peace of society through research and development, industry and technical professional education.
  • PEO-IV: Capability to function ethically in professional mechanical engineering roles and exhibit good competency in their work culture.

Program Outcomes (POs)

Program Outcomes (POs)

  1. Engineering knowledge:

    An ability to apply knowledge of mathematics, science and engineering fundamentals in the field of mechanical engineering to the solution of engineering problems

  2. Problem analysis:

    An ability to design experiments, identify, formulate, analyze & interpret engineering problems in the field of mechanical engineering

  3. Design & Development of Solutions:

    An ability to design solutions for mechanical engineering problems and design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability

  4. Investigation of Complex Problem :

    An ability to design software, performs experiments, analyzes and interprets the outcomes data to arrive at valid conclusions

  5. Modern tool usage:

    An ability to use the techniques, skills, and modern engineering tools and softwares necessary for engineering practice

  6. Engineer and society:

    The broad education necessary to understand the impact of mechanical engineering solutions in a global, economic, environmental, and societal context

  7. Environment& sustainability:

    An ability to understand the impact of engineering solutions in social and environmental contexts and demonstrate knowledge of and need for sustainable development

  8. Ethics :

    An ability to apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice

  9. Individual and Team Work:

    An ability to function effectively as an individual, and as a member or leader in diverse teams and in multi disciplinary settings

  10. Communication:

    An ability to communicate effectively about their domain in both verbal and written form

  11. Project Management and Finance:

    Demonstrate knowledge and understanding of mechanical 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

  12. Life-long Learning:

    Recognize the need for and have the preparation and ability to engage in independent and life- long learning to survive in Company/Organization or independently

Program Specific Outcomes (PSO’s)

  1. Our Mechanical Engineering graduates would be able to implement creative thinking in main areas such as design, manufacturing, thermal, and various research projects.
  2. Our Mechanical Engineering graduates would be able to work in software industries as well as in core industries to improve in it for quality output.

Laboratory

Laboratory

S.NO. Name of LAB Area in m²

Investment in Rs.

1 Fluid Mechanics 180 1,93,500/-
2 Fluid & Turbo Machinery 3,66,256/-
3 Applied Thermodynamics 66 1,10,823/-
4 Mechatronics 2,61,895/-
5 Manufacturing Process 88 1,80,826/-
6 Industrial fluid Power 2,05,428/-
7 Metallurgy 80 1,86,199/-
8 Metrology & Quality control 3,24,399/-
9 CAD/CAM LAB 1 66 47,66,194/-
10 CAD/CAM LAB 2 70 10,96,096/-
11 CAD/CAM/CAE LAB 72 26,20,103/-
12 Theory Of Machine-I 66 1,08,109/-
13 Theory Of Machine-II 1,39,680/-
14 Testing & Measurement 95 1,82,039/-
15 Heat & Mass Transfer 2,06,564/-
16 I. C. Engines 95 11,14,086/-
17 Automobile 94,600/-
18 Refrigeration & Air Conditioning 66 3,66,750/-
19 Noise & Vibration 95 1,92,827/-
20 Control engineering 3,85,713/-
21 Seminar Hall & Dept. office 150 4,38,201/-
22 Workshop 480 29,17,491/-
23 Tool Engineering 24,300/-

Total

1,64,82,079/-

Infrastructure

Infrastructure

S.No. Name Area(Sq.m)
1 Class Room 1 72
2 Class Room 2 72
3 Class Room 3 72
4 Class Room 4 72
5 Class Room 5 72
6 Class Room 6 72
7 Department Office 18
8 ME OFFICE 15
9 Seminar Hall 132
10 Drawing Hall 100

Curriculum Activities

Student Achievements

Students' Achievements : Year 2018-19
TCS Selection
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