About the Program
The Smart and Sustainable Power Engineering with AI integration program is meticulously designed for Electrical Engineering students, equipping them with in-depth knowledge and skills to develop innovative, AI-driven, and eco-conscious solutions within the power engineering domain. This curriculum focuses on designing, managing, and optimizing power systems with an emphasis on efficiency, sustainability, and advanced technologies. The program spans a wide range of topics, including renewable energy integration, smart grid technologies, sustainable power generation, substation engineering, industrial power system analysis and the transformative role of Artificial Intelligence in these areas. Through AI applications, learners will explore predictive maintenance for smart grids, energy forecasting for renewables, fault identification in transmission lines, load flow analysis, demand side management and optimization of power distribution networks to enhance system performance.Graduates will emerge well-prepared to contribute to the advancement of intelligent, AI-enabled, and environmentally sustainable power solutions, shaping a smarter, greener, and more sustainable future
Courses
    Credits Semester
  • Renewable Energy Technologies with AI Applications 3 III
  • OH & UG Power Transmission Engineering & Distribution 3 IV
  • Industrial Power System Analysis with AI Applications 3 V
  • Substation Engineering: Design & Digital Concepts 3 V
  • Practitioner’s Approach to Power System Protection and Switchgear with AI Applications 3 VI
  • Smart Grid Technologies with Cloud Integration 3 VII
    Credits Semester
  • Digital Enablement Basics for Engineers 3 I
  • Critical Thinking, Design Thinking, Leadership and Teamwork 3 II
  • Project Management for Professionals / Finance for Professionals 3 VIII
    Credits Semester
  • Critical Thinking, Design Thinking, Leadership and Teamwork 3 II
  • Career Readiness in Digital Era 3 VI
Mode of Delivery
  • Self-paced learning + Expert session (VILT) – 30 hours
  • Project work – 15 hours
  • Face-to-face instructor led sessions / VILT sessions – 45 hours (including project work)
Job Roles
  • Electrical Design Engineer – Power System
  • Electrical Design Engineer – Renewable Energy
  • Electrical Design Engineer – Protection system
  • Electrical Design Engineer – Power Transmission
  • Electrical Project Engineer
  • Electrical Maintenance Engineer
  • Electrical Procurement Engineer
  • Electrical Design Engineer – Power Distribution & Smart Grid
Software Tools
  • ETAP
  • PVSyst
  • SAM
  • MATLAB
  • MS Project
Skills
  • Design and model the complete photovoltaic system manually and with different software tools like MATLAB, PVSyst & SAM.
  • Design and model wind power generation manually and with different software tools - SAM software.
  • Solar and Wind energy forecasting using AI tools.
  • Relay coordination & short circuit analysis using ETAP software for different industrial use cases.
  • Modelling and simulation of transmission lines by using MATLAB and ETAP.
  • Selection and sizing of EHV cables.
  • Develop the architecture of AC /DC microgrids.
  • Implement a AI enabled demand-side management project in a smart home incorporating Automated Metering Infrastructure.
  • Design of protection schemes for different electrical equipment.
  • Selection and sizing of switchgear for any application.
  • Substation design, digital concepts including various equipment selection and sizing calculations.
  • Perform load flow, short circuit and stability analysis for power system networks supported with AI techniques.