About the Program
The Integrated Program in Advanced Power Generation Systems is meticulously designed to equip learners with an extensive understanding of cutting-edge technologies and best learners in power generation. This program delves deeply into a diverse array of subjects, including the integration of renewable energy sources, advanced energy storage solutions, super critical boilers, environmen_x0002_tal protection systems, and the implementation of sustainable power generation methods. Learners emerge not only well-prepared, but also inspired to play a pivotal role in the evolution of advanced power generation systems. These systems stand as beacons of environmental responsibility, characterized by their efficiency, reliability, and eco-friendliness. This comprehensive program equips learners to lead the way in developing and managing power generation solutions that align seamlessly with the demands of a rapidly evolving energy landscape.
Courses
    Credits Semester
  • Design of Fire and Life Safety Systems 3 III
  • Green Energy Systems: An Overview and its Applications 3 IV
  • Utility Systems for Industrial Facilities 3 V
  • Power Plant Engineering - An Industrial Context 3 V
  • Steam Generator and Auxiliary Systems 3 VI
  • Steam Turbine and Auxiliary Systems 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
  • Power Plant Design Engineer
  • Power Plant Equipment
  • Manufacturing Engineer
  • Power Plant Commissioning Engineer
  • Power Plant Operation Engineer
Software Tools
  • MS Project
  • EDraw Max
Skills
  • Fire hydrants, sprinklers, foam systems
  • Life safety, building compartmentation strategies
  • Pump and sump capacity for firefighting
  • Systems for wind, solar, geothermal applications
  • Advancements in fuel cells, hydrogen energy
  • Power plant, emission control, auxiliary systems
  • Balance of plant system
  • Combined cycle, nuclear plants for compliance
  • Boiler layout for efficient operation, support
  • NOx, SOx reduction for regulatory compliance
  • Steam turbines for performance, efficiency
  • Utility systems in industrial facilities
  • Commissioning, erection, operation of steam turbines