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M-TECH in Electrical Engineering Power System at Invertis University
Bareilly, Uttar Pradesh
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About the Specialization
What is Electrical Engineering (Power System) at Invertis University Bareilly?
This M.Tech Electrical Engineering (Power System) program at Invertis University focuses on advanced concepts in power generation, transmission, distribution, and control. It addresses the growing complexities of modern power grids, including renewable energy integration and smart grid technologies, aligning with India''''s evolving energy landscape and infrastructure development needs.
Who Should Apply?
This program is ideal for B.Tech/B.E. Electrical Engineering graduates seeking specialized knowledge in power systems for R&D roles, utility operations, or advanced academic pursuits. Working professionals in the power sector can also upskill in areas like smart grids, FACTS, and renewable integration to accelerate their careers within India''''s dynamic energy industry.
Why Choose This Course?
Graduates of this program can expect promising career paths in central/state power utilities (PGCIL, NTPC, State Electricity Boards), manufacturing (BHEL, Siemens India), and renewable energy firms. Roles include Power System Engineers, Protection Engineers, Research Scientists, or Consultants, with entry-level salaries typically ranging from INR 4-7 LPA, growing significantly with experience in the Indian market.
Student Success Practices
Foundation Stage
Build Strong Analytical and Simulation Skills- (Semester 1-2)
Focus heavily on mastering advanced mathematics, power system analysis, and transient studies. Utilize software like MATLAB, PSCAD, and PowerFactory from the outset to simulate power system behavior, analyze faults, and understand stability. Actively participate in labs to gain hands-on experience with these tools.
Tools & Resources
MATLAB/Simulink, PSCAD, ETAP, PowerFactory, NPTEL courses on Power System Analysis
Career Connection
Essential for roles in R&D, system planning, and operations, enabling accurate problem-solving and design validation in utilities and consultancies.
Engage with Core Protection and Control Concepts- (Semester 1-2)
Develop a deep understanding of advanced power system protection schemes and control strategies. Form study groups to discuss complex relaying principles, fault analysis scenarios, and transient phenomena. Seek out faculty guidance for clarifications and explore case studies from Indian grid operations.
Tools & Resources
IEEE papers on protection, Reference books by P.M. Anderson, A.R. Bergen, CIGRE reports
Career Connection
Directly prepares students for specialized roles as Protection Engineers or Control System Engineers in substations, power plants, and transmission companies.
Participate in Technical Seminars and Workshops- (Semester 1-2)
Attend and actively participate in departmental seminars, workshops, and guest lectures organized by the university, especially those featuring industry experts. Prepare and deliver quality seminars on emerging topics in power systems to enhance public speaking and technical presentation skills.
Tools & Resources
University seminar series, Industry association events (e.g., IEEMA, CBIP), Online technical presentation tutorials
Career Connection
Boosts communication skills, provides networking opportunities, and helps in understanding current industry challenges and research trends, beneficial for project interviews and career growth.
Intermediate Stage
Advanced Stage
Specialize through Electives and Advanced Topics- (Semester 3-4)
Carefully choose elective subjects (e.g., Smart Grid, Power Quality, HVDC) that align with personal career interests and industry demand. Dive deep into the chosen areas, connecting theoretical knowledge with real-world applications in the Indian power sector.
Tools & Resources
Specialized textbooks, Research papers from prominent journals (IEEE Transactions), Industry standards (IS/IEC)
Career Connection
Builds a unique skill set for niche roles in smart grid development, renewable energy integration, or high voltage transmission projects.
Undertake Industry-Relevant Project Work- (Semester 3-4)
Start identifying a relevant and challenging project topic (Industrial Training / Project Work - I and Project Work - II / Dissertation) early, ideally one with industrial application or research potential. Collaborate with faculty and consider pursuing internships with power utilities or related industries to gain practical exposure.
Tools & Resources
University project labs, Industry contacts, Research databases (Scopus, Web of Science), Internship portals
Career Connection
Provides practical experience, a strong resume builder, and often leads to pre-placement offers or direct employment in the power sector.
Network with Professionals and Attend Conferences- (Semester 3-4)
Actively seek opportunities to connect with industry professionals, alumni, and researchers. Attend national or regional power system conferences and expos (e.g., ELECRAMA, India Smart Grid Week) to stay updated on technological advancements and market trends, and expand your professional network.
Tools & Resources
LinkedIn, Professional body memberships (IEEE Power & Energy Society), Conference websites
Career Connection
Opens doors to mentorship, collaborative research, and job opportunities, providing insights into specific company cultures and hiring needs.
Program Structure and Curriculum
Eligibility:
- B.Tech./B.E. in Electrical Engineering / Electrical & Electronics Engineering or equivalent with minimum 50% marks
Duration: 2 years (4 semesters)
Credits: 81 Credits
Assessment: Internal: Varies by subject type (Theory: 30%, Practical/Project: 50%), External: Varies by subject type (Theory: 70%, Practical/Project: 50%)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTP-101 | Advanced Engineering Mathematics | Core | 4 | Linear Algebra, Calculus of Variations, Partial Differential Equations, Complex Analysis, Probability & Statistics |
| MTP-102 | Power System Analysis & Control | Core | 4 | Load Flow Studies, Symmetrical Components, Fault Analysis, Power System Stability, Excitation & Governor Control |
| MTP-103 | Advanced Power System Protection | Core | 4 | Fundamentals of Protection, Relay Characteristics, Transformer Protection, Generator Protection, Transmission Line Protection |
| MTP-104 | Power System Transients | Core | 4 | Traveling Waves, Overvoltages due to Lightning & Switching, Surge Protection, Insulation Coordination, Digital Simulation of Transients |
| MTP-151 | Advanced Power System Lab-I | Lab | 2 | Power System Software Simulation, Load Flow Experiments, Short Circuit Analysis, Protection Schemes Simulation, Stability Studies |
| MTP-152 | Computer Applications Lab | Lab | 2 | MATLAB Programming, C/C++ for Engineering, Data Analysis, Simulation Tools, Numerical Methods Implementation |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTP-201 | Power System Dynamics & Stability | Core | 4 | Synchronous Machine Modeling, Small Signal Stability, Transient Stability, Voltage Stability, Power System Stabilizers |
| MTP-202 | High Voltage Engineering | Core | 4 | Dielectric Breakdown, High Voltage Generation, High Voltage Measurement, Overvoltage Phenomenon, Insulation Systems |
| MTP-203 | Flexible AC Transmission Systems (FACTS) | Core | 4 | FACTS Concepts, Shunt Compensators (STATCOM), Series Compensators (SSSC), Unified Power Flow Controller (UPFC), Harmonic Filters |
| MTP-204 | Power System Operation & Control | Core | 4 | Economic Operation, Unit Commitment, Optimal Power Flow, State Estimation, SCADA & EMS |
| MTP-251 | Advanced Power System Lab-II | Lab | 2 | FACTS Device Simulation, High Voltage Testing, Relay Coordination Studies, Power System Control Experiments, Renewable Energy Integration |
| MTP-252 | Seminar | Project/Seminar | 2 | Research Topic Selection, Literature Review, Presentation Skills, Technical Report Writing, Peer Evaluation |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTP-301 | Renewable Energy Systems | Core | 4 | Solar PV Systems, Wind Energy Systems, Biomass Energy, Hydro Energy, Grid Integration of Renewables |
| MTP-302 | Power System Economics & Deregulation | Core | 4 | Power Market Models, Market Clearing Mechanisms, Ancillary Services, Transmission Pricing, Regulatory Framework |
| MTP-303 | Smart Grid Technology | Elective | 4 | Smart Grid Architecture, Advanced Metering Infrastructure, Microgrids, Cyber Security, Smart Grid Applications |
| MTP-304 | Electrical Distribution System | Elective | 4 | Distribution System Planning, Feeder Reconfiguration, Voltage Control, Distributed Generation, Protection of Distribution Systems |
| MTP-305 | EHV AC & DC Transmission | Elective | 4 | EHV AC Transmission, HVDC Systems, Converters, Control of HVDC, Harmonics & Filters |
| MTP-351 | Industrial Training / Project Work - I | Project | 7 | Problem Identification, Literature Survey, Methodology Development, Preliminary Design, Report Writing |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTP-401 | Non-Conventional Energy Resources | Elective | 4 | Solar Radiation & Collectors, Wind Energy Converters, Geothermal Energy, Ocean Energy, Bio-mass & Fuel Cells |
| MTP-402 | Power Quality | Elective | 4 | Power Quality Issues, Harmonics, Voltage Sags & Swells, Interruptions, Mitigation Techniques |
| MTP-403 | Digital Control of Power System | Elective | 4 | Digital Control Fundamentals, Discrete-Time Systems, State-Space Control, Digital Controllers, Microprocessor-Based Control |
| MTP-404 | Advance Microprocessor & Controller | Elective | 4 | Microprocessor Architecture, Microcontrollers, Embedded Systems, Interfacing, Programming |
| MTP-405 | Power System Restructuring & Deregulation | Elective | 4 | Rationale for Restructuring, Market Models, Transmission Pricing, Ancillary Services, Market Power |
| MTP-406 | Computer Relaying & Automation | Elective | 4 | Digital Relaying Principles, Sampling & Filtering, Algorithm Design, SCADA Systems, Substation Automation |
| MTP-451 | Project Work - II (Dissertation) | Project | 10 | Thesis Proposal, Experimental Work, Data Analysis, Result Interpretation, Dissertation Writing |
