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M-TECH in Electrical Engineering Power Systems at Marwadi University
Rajkot, Gujarat
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About the Specialization
What is Electrical Engineering (Power Systems) at Marwadi University Rajkot?
This M.Tech Electrical Engineering Power Systems program at Marwadi University focuses on advanced concepts in power generation, transmission, distribution, and control. It addresses the evolving landscape of India''''s energy sector, including renewable integration and smart grid technologies, preparing students for critical roles in modern power infrastructure and contributing to sustainable energy solutions.
Who Should Apply?
This program is ideal for electrical engineering graduates with a foundational understanding of power systems seeking to deepen their expertise. It suits fresh graduates aspiring to enter the power sector, as well as working professionals aiming to upgrade their skills for leadership roles in utility companies, energy consultancies, or research and development in India.
Why Choose This Course?
Graduates of this program can expect promising career paths in Indian PSUs, private power companies, and renewable energy firms. Roles may include Power System Engineer, Design Engineer, R&D Engineer, or Consultant. Entry-level salaries typically range from INR 4-7 lakhs per annum, with significant growth trajectories for experienced professionals in this vital industry.
Student Success Practices
Foundation Stage
Master Core Power Systems Concepts- (Semester 1-2)
Focus on building a robust understanding of fundamental power system analysis, protection, and control. Actively participate in theory classes, solve numerical problems, and engage in lab simulations to solidify concepts.
Tools & Resources
NPTEL courses on power systems, IEEE Xplore for research papers, MATLAB/Simulink for basic simulations
Career Connection
A strong theoretical base is crucial for clearing technical interviews for roles in PSUs and core electrical companies, and for excelling in advanced projects.
Develop Simulation and Modeling Skills- (Semester 1-2)
Gain proficiency in power system simulation tools like PSCAD/EMTDC and MATLAB. Work on mini-projects that involve modeling power system components and analyzing their behavior under different conditions.
Tools & Resources
University computer labs, Online tutorials for PSCAD/MATLAB, Project ideas from faculty
Career Connection
Expertise in simulation tools is highly valued by design and R&D divisions in power companies, enabling roles in system planning and analysis.
Engage in Research Methodology Early- (Semester 1-2)
Leverage the ''''Research Methodology'''' course to identify potential research interests and conduct initial literature reviews. Collaborate with peers and faculty to discuss potential master''''s thesis topics.
Tools & Resources
University library databases, Google Scholar, Zotero/Mendeley for reference management
Career Connection
Early engagement in research strengthens analytical skills and critical thinking, preparing students for impactful thesis work and potentially research-oriented career paths or further studies.
Intermediate Stage
Specialize Through Electives and Advanced Topics- (Semester 3)
Carefully choose elective subjects (Program Elective-II, Open Elective-II) based on career aspirations, whether in power quality, FACTS, smart grids, or machine learning applications. Dive deep into these chosen areas.
Tools & Resources
Advanced textbooks, Industry white papers, Specialized software related to chosen electives (e.g., PSSE, ETAP)
Career Connection
Specialization through electives creates a niche skill set, making candidates highly desirable for specific roles in advanced power system domains.
Initiate and Progress Master''''s Project (Stage I)- (Semester 3)
Formulate a clear research problem, conduct an extensive literature survey, and develop a robust methodology for Project Stage-I. Regularly meet with supervisors, prepare interim reports, and present progress.
Tools & Resources
Access to research journals, Experimental lab facilities if required, Presentation software
Career Connection
A well-executed project demonstrates problem-solving abilities, research acumen, and independent work ethic, critical for both academic and industrial R&D positions.
Network with Industry Professionals- (Semester 3)
Attend webinars, industry workshops, and conferences focused on power systems. Engage with guest lecturers and alumni to understand industry trends and potential career opportunities.
Tools & Resources
LinkedIn, Industry association websites (e.g., IEEMA, CIGRE India chapter), University career services
Career Connection
Networking opens doors to internship opportunities, mentorship, and direct recruitment leads, significantly enhancing placement prospects.
Advanced Stage
Deliver High-Quality Master''''s Thesis (Project Stage II)- (Semester 4)
Dedicate significant effort to conducting experiments/simulations, analyzing results, and meticulously documenting the master''''s thesis. Focus on clear, concise writing and a compelling presentation for the final defense.
Tools & Resources
Advanced analytical software, Academic writing guides, Peer review of thesis drafts
Career Connection
A strong thesis is a testament to advanced technical skills and critical thinking, impressing potential employers and serving as a portfolio piece for R&D roles.
Prepare for Placements and Interviews- (Semester 4)
Actively participate in campus placement drives, practice technical and HR interviews, and refine your resume. Focus on clearly articulating your project work, specialized skills, and career aspirations.
Tools & Resources
Mock interview sessions, Resume workshops, Online aptitude test platforms
Career Connection
Effective preparation ensures you stand out during recruitment, securing desirable positions in core power system companies or related industries.
Pursue Professional Certification/Skill Enhancement- (Semester 4)
Consider acquiring certifications in specific tools (e.g., PSCAD, ETAP) or domains (e.g., Solar PV design, Electric Vehicle technologies) relevant to emerging power sector trends.
Tools & Resources
Online certification platforms (Coursera, edX), Industry-specific training institutes
Career Connection
Additional certifications demonstrate initiative and specialized knowledge, boosting employability and career progression in rapidly evolving areas of the power industry.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. in Electrical Engineering/Electrical & Electronics Engineering or equivalent with minimum 50% marks (45% for SEBC/ST/SC candidates) at the qualifying examination.
Duration: 2 years (4 semesters)
Credits: 79 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 1MA101 | Advanced Engineering Mathematics | Core | 4 | Matrices and System of Linear Equations, Differential Equations, Laplace Transform, Z-Transform, Fourier Series and Transform, Partial Differential Equations |
| 1EE101 | Advanced Power System Analysis | Core | 4 | Per-unit system, Symmetrical Components, Unsymmetrical Fault Analysis, Load Flow Studies, Stability Analysis |
| 1EE102 | Power System Operation and Control | Core | 4 | Economic Load Dispatch, Unit Commitment, Hydrothermal Scheduling, Load Frequency Control, Voltage Control, Reactive Power Compensation |
| 1EE103 | Power System Modeling and Simulation Lab | Lab | 2 | Load flow simulation, Fault analysis simulation, Dynamic stability studies, Power system protection simulation, MATLAB/PSCAD usage |
| 1RM101 | Research Methodology | Core | 3 | Introduction to Research, Research Design, Data Collection, Statistical Analysis, Research Ethics, Report Writing |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 1EE201 | Power System Protection | Core | 4 | Principles of protection, Relays (overcurrent, differential, distance), Protection of generators, transformers, lines, bus bars, Circuit breakers |
| 1EE202 | High Voltage DC Transmission | Core | 4 | Introduction to HVDC, Converters and their control, Harmonics and filtering, Reactive power control, System interaction, Multi-terminal HVDC |
| 1EE203 | Renewable Energy Systems | Elective (Program Elective-I) | 4 | Solar PV systems, Wind energy systems, Biomass energy, Hydropower, Geothermal, Hybrid systems |
| 1EE204 | Advanced Power Electronics | Elective (Program Elective-I) | 4 | Power semiconductor devices, DC-DC converters, DC-AC inverters, AC-DC converters, Applications in power systems |
| 1EE205 | Smart Grid Technologies | Elective (Open Elective-I) | 3 | Smart grid architecture, Advanced metering infrastructure (AMI), Demand side management, Renewable energy integration, Cyber security in smart grid |
| 1EE206 | Advanced Control Systems | Elective (Open Elective-I) | 3 | State space analysis, Controllability and observability, Optimal control, Adaptive control, Robust control, Non-linear control systems |
| 1EE207 | Power System Simulation Lab | Lab | 2 | PSCAD/EMTDC for transient analysis, Real-time digital simulator applications, Power flow studies with advanced tools, FACTS device simulation |
| 1EE208 | Research Seminar-I | Project | 2 | Literature review, Research proposal writing, Presentation skills, Technical report preparation, Identifying research gaps |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 1EE301 | Power Quality | Core | 4 | Voltage sags and swells, Harmonics, Flickers, Interruptions, Measurement and analysis, Mitigation techniques, Power quality standards |
| 1EE302 | Flexible AC Transmission Systems | Elective (Program Elective-II) | 4 | Introduction to FACTS, SVC, STATCOM, TCSC, UPFC, Control strategies, Applications in power systems |
| 1EE303 | Distribution Automation and Smart Grids | Elective (Program Elective-II) | 4 | Distribution system components, Automation concepts, SCADA, Feeder automation, Microgrids, Advanced metering |
| 1EE304 | Advanced Power System Protection | Elective (Program Elective-II) | 4 | Numerical relaying, Wide area protection, Adaptive protection, Protection coordination, System integrity protection schemes |
| 1EE305 | Machine Learning in Power Systems | Elective (Open Elective-II) | 3 | Introduction to ML, Supervised learning, Unsupervised learning, Reinforcement learning, Applications in load forecasting, fault detection |
| 1EE306 | Energy Management and Auditing | Elective (Open Elective-II) | 3 | Energy conservation, Energy auditing process, Energy management systems, Industrial energy efficiency, Renewable energy policies |
| 1EE307 | Project Stage-I | Project | 8 | Problem identification, Literature survey, Methodology development, Experimental setup design, Preliminary results |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 1EE401 | Project Stage-II | Project | 24 | Data analysis, Results interpretation, Thesis writing, Presentation, Viva-Voce, Publication of research |
