Industry & Research Training on Sustainable Hybrid Energy System Design and Analysis
This 10-day online training equips participants with practical knowledge and hands-on skills to design, simulate, and optimize hybrid renewable energy systems using HOMER Pro. It covers renewable resource assessment, techno-economic analysis (TEA), life cycle assessment (LCA), multi-objective optimization, and real-world case studies, enabling participants to bridge fundamentals with industry applications.
25 JUNE-05 JULY 2026 | 7:30 PM IST | ONLINE
25 June-05 July 2026 | 7:30 PM IST | Online| Certificate
About the Training
This 10-day online industry and research training program provides participants with practical knowledge and hands-on experience in designing and optimizing hybrid renewable energy systems. The course covers renewable resource assessment, hybrid system modeling, techno-economic analysis (TEA), life cycle assessment (LCA), multi-objective optimization, and real-world case studies using HOMER Pro software. Participants will gain industry-relevant skills applicable to renewable energy projects, research, consulting, and sustainable development initiatives.
What You Will Learn
Fundamentals of Hybrid Renewable Energy Systems (HRES)
HOMER Pro software and energy system simulation
Solar, wind, biomass, hydro, and battery integration
Resource assessment and load profile development
Techno-Economic Analysis (TEA)
Life Cycle Assessment (LCA)
Multi-objective optimization techniques
Environmental impact assessment
Hybrid system design and operation strategies
Real-world renewable energy case studies
Course Features
Live online training sessions
Daily practical exercises using HOMER Pro
Lecture recordings and study materials
PPTs, toolkits, research PDFs, and templates
Project work and case studies
Career guidance and policy insights
Certificate upon successful completion
Lifetime access to recordings and templates
Learning Outcomes
Design and simulate hybrid renewable energy systems
Optimize energy systems using HOMER Pro
Conduct techno-economic and environmental assessments
Evaluate renewable energy project feasibility
Perform sensitivity and scenario analyses
Develop sustainable and cost-effective energy solutions
Apply renewable energy concepts in industry and research projects
Enhance career opportunities in clean energy and sustainability sectors
Who Can Join
PhD Scholars and Research Fellows
Renewable Energy Engineers
Energy Analysts and Planners
Government and Policy Professionals
Development Sector Professionals
Entrepreneurs and Startups in Clean Energy
Urban and Regional Planners
Students aspiring for careers in sustainable energy
Course Fee
Indian Participants: ₹ 2500
International Participants: 130 USD
Course Module
Day 1 – Introduction to Hybrid Renewable Energy Systems (HRES)
Overview of renewable energy sources: solar, wind, biomass, hydro
Basics of SPV, wind, battery, and diesel systems
Hybrid system configurations and rural electrification
Day 2 – HOMER Pro & LCA/TEA Concepts
Optimization and techno-economic analysis
Life Cycle Assessment (LCA)
HOMER Pro interface and workflow
Simulation, optimization, and sensitivity analysis
Day 3 – Load Profile Development & Demand Management
Residential, commercial, industrial, and community loads
Daily, seasonal, and annual load profiles
Demand-side management strategies
Day 4 – Resource Assessment & Hybrid Topology Design
Solar irradiance and wind resource assessment
Resource databases (NASA, NREL, SolarGIS, Meteonorm)
Component modeling and system design
AC/DC coupling and dispatch strategies
Day 5 – Hybrid System Design & Integration
Control strategies and system operation
Load following and cycle charging
Inverter management and integration
Day 6 – Economic Assessment & Optimization
NPC, COE, and LCOE calculations
Financial analysis of energy systems
Multi-criteria optimization
Day 7 – Sensitivity Analysis & LCA Integration
Fuel cost and inflation sensitivity analysis
Environmental footprint assessment
Scenario comparison techniques
Day 8 – System Performance & Environmental Impact
Performance evaluation of HRES
Peak shaving and backup systems
Policy considerations and net metering
Day 9 – Case Studies & Mini Project
Location-specific energy system modeling
Simulation and optimization exercises
Troubleshooting and peer discussions
Day 10 – Project Showcase & Program Wrap-Up
Final project completion
Presentation and result interpretation
Future applications, research opportunities, and open discussion