It is a two-year postgraduate program that provides students with a comprehensive understanding of in the field of engineering and their practical use in the industrial world.

The program covers topics such as an electric power system is a network of electrical components deployed to supply, transfer, and use electric power. An example of a power system is the electrical grid that provides power to homes and industries within an extended area.

Eligibility

Passed Bachelor’s Degree from UGC approved University in the relevant field. Obtained at least 50% marks (45% marks in case of candidates belonging to reserved category) in the qualifying examination

  • Duration
    2 Years (4 Semesters)
  • Fee (Per Semester)
    32,500/-
    Examinations Fee (Per Semester)
    1,500/-
    Registration Fee
    500/-
    Enrollment Fee
    1,000/-

 

Highlights

  • The main objective of power system operation and control is to maintain a continuous supply of power with an acceptable quality, to all the consumers in the system.
  • The system will be in equilibrium when there is a balance between the power demand and the power generated.
  • To develop the concept of Inductance and Capacitance of Transmission Lines. To represent the elements of a power system including generators, transmission lines, and transformers.
Program-objective

Curriculum Details

Semester

  • Modern Power System Analysis
  • Power System Dynamics
  • Modern Power System Protection
  • Optimization Techniques
  • Intellectual Property Rights
  • Power System Protection Lab
  • Seminar - I

Semester

  • Distributed Generation System
  • Power System Operation And
  • Ai Applications To Power
  • System
  • Scada System And Applications
  • Power System Steady State
  • Analysis Lab
  • Power Electronics Applications
  • To Power Systems Lab
  • Computing Lab For Design Applications
  • Semina -II
  • Open Elective - I (select Any One)
  • Human Resource Management
  • Organizational Behaviour
  • Database Management System

Semester

  • Facts And Custom Power
  • Devices
  • Power System Transients
  • Innovation And Entrepreneurship For Engineers
  • eminar - Iii
  • Ecology And Biodiversity
  • Open Elective - Ii (select Any One)
  • Human Development
  • Public Policy
  • Society And Environment

Semester

  • Dissertation
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Program Outcomes (POs)

  • PO1

    Engineering knowledge:Implement the advanced knowledge of mathematics, science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems.

  • PO2

    Problem analysis:Determine, formulate, review research literature and evaluate complex engineering problems reaching substantiated conclusions

  • PO3

    Conduct investigations of complex problems:Use research-based knowledge and research methods including pattern of experiments, analysis and interpretation of data and synthesis of the information to provide valid conclusions.

  • PO4

    Modern tool usage:Create, select and implement appropriate techniques, resources and modern engineering and IT tools including prediction and modelling for learning, creating and demonstrating engineering solutions.

  • PO5

    Evaluation of solutions:Evaluation of the results of the research in day-to-day life easing the burden on society.

  • PO6

    The Engineer and Society:Implement 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:Recognize the impact of professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of the 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 Teamwork:Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

  • PO10

    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 changes.

 

Program Educational Objectives (PEOs)

A postgraduate of the Power System Program should:

Be eminent power engineers capable of playing significant roles in the private and public power sectors or carrying out related research activities at academic and research institutions.

Apply their knowledge and skills of power system engineering with an understanding of realistic constraints for the overall benefit of society.

Work and communicate effectively in an interdisciplinary environment, either independently or in a team and demonstrate leadership qualities.

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outcomes

Career Path

  • After completing an M. Tech in Machine Design, the students can move to teach in Government or Private College/university as assistant professor/Lecturer etc
  • The students can move to abroad or India for higher Education for PhD and Research & Development section
  • M.Tech. students can work as Design Engineer, Research Analyst, Assistant Engineers, Site Engineers, Field Test Engineer, Research & Development Software Engineer, Customer Support Engineers, and Network Planning Engineer
  • The students can work as Project Leader, software Operator, software Supervisor, Assistant Manager

FAQ

Why should Study M. Tech in Power System Engineering?

Power system analyses are an essential part of fuel system design. Calculations and simulations are performed to ensure that the electrical system, including its components, is correctly specified to perform as intended, carry the expected loads and be protected against faults. This includes requirements and recommendations for personal and equipment protection, system response and equipment performance. Together with the device classifications, regulations and standards, they form the basis for evaluating the results of calculations and simulations.

What is the duration for the M. Tech course in the Power System program?

M. Tech Power Systems Engineering is a 2-year professional electrical engineering course.

What is the scope of M. Tech in Power System Engineering?

M. Tech Power Systems Course offers many opportunities in public and private organizations with an attractive salary. M Tech in Power Systems courses build engineers who are responsible for working in a variety of fields such as telecom companies, engineering firms, thermal power plants, equipment manufacturers, recycling and environmental companies, hydroelectric power plants, and many others. Students can easily find jobs in these fields in different positions according to M. Tech Power System Engineering, e.g. M. Tech Power System Engineering's field of activity covers a wide range of areas, including teaching and research.

What is M. Tech in Power System Engineering?

M. Tech in Power System Engineering or Master of Technology in Power System Engineering is a postgraduate degree in Power System Engineering. The power system includes power generation, power transmission, power distribution, control and protection, switchgear, power transformers, control and relays, substation, distribution station and all switchgear. Topics offered include analysis of steady-state and transient power systems, system stability, protection and control, transmission and distribution system design and equipment, and system operation and electrical planning.

 

Campus
Nirwan University Jaipur

Near Bassi-Rajadhok Toll, Agra Road, Jaipur- 303305

City Office

21, Sahkar Marg, 1st Floor, Near 22 Godam Circle
Jaipur - 302019 Rajasthan
Campus

Nirwan University

Near Bassi-Rajadhok Toll, Village- Jhar, Agra Road, Jaipur - 303305 Rajasthan
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