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Bachelor of Mechanical Engineering (BME)

Overview

Mechanical Engineering, one of the most comprehensive engineering programs is associated with the design and production of machinery, equipment, and mechanical tools needed for industrial or business purposes.

This program has multi-dimensional functions ranging from design, development, construction, and production of machinery items to installation, maintenance, and operation of heavy and complicated machines. Mechanical engineers work in the mechanism and function of different equipment such as components of thermal power stations, internal combustion, automobiles, refrigerators, jet engines, etc.

  • Course Info

    Affilation Tribhuwan University (TU)
    Duration 4 Years
    Institute Type College
    Average Fees Incurred NPR 800,000
    Employment Roles

    Mechanical Engineer

    Design Engineer

    Manufacturing Engineer

    Energy Systems Engineer

    Automotive Engineer
    Placement Opportunities

    Engineering Firms

    Manufacturing Companies

    Research and Development Organizations 

    Industries involved in Automotive, Energy and Machinery productions

  • Admission Criteria

    10+2 in Science with maths aas a full-time paper in 11 and 12. Passing the entrance examinations is mandatory for studying mechanical engineering in TU

  • Salient Features

    Comprehensive Engineering Education: Integrates theoretical knowledge with practical skills to create well-rounded mechanical engineers.
    Project-based Learning: Encourages students to work on engineering projects, fostering creativity and problem-solving abilities.
    Industry Relevance: Adapts the curriculum to align with industry needs and technological advancements.
    Preparation for Licensure: Graduates are prepared for professional engineering licensure after completing the program.

  • Eligibility

    Candidates must have completed their 10+2 or equivalent education with a strong background in physics, chemistry, and mathematics.

  • Curricular Structure

    Core Subjects: Thermodynamics, Fluid Mechanics, Heat Transfer, Machine Design, Dynamics of Machinery, Materials Science, Manufacturing Processes.
    Practical Training: Emphasis on laboratory work, hands-on projects, and industry internships to apply theoretical concepts to real-world scenarios.
    Specializations: Depending on the institution, students may have the option to specialize in areas such as robotics, automotive engineering, or energy systems.

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