Renewable Energy Lab Installation at Jamia Millia Islamia

Battery Cycler, Wind Turbine Emulator, Solar ETC Characterization System and PV Emulator installed at Jamia Millia Islamia for hands-on renewable energy training and research.

Introduction

Jamia Millia Islamia, New Delhi, has strengthened its renewable energy and advanced power systems laboratories through the installation of multiple research-grade platforms supplied by Ecosense Sustainable Solutions.

The installation brings together energy storage testing, wind energy emulation, solar thermal concentration, and photovoltaic system simulation within a single academic ecosystem. This multi-technology setup is designed to support undergraduate teaching, postgraduate research, and experimental validation of renewable energy concepts under controlled laboratory conditions.

About the Installation

The installation at Jamia Millia Islamia comprises four independent laboratory systems, each designed to support a specific function within renewable energy education and research.

Each platform operates as a standalone unit, allowing focused experimentation without functional dependence on the other systems.

The Battery Cycler with Data Analytics is dedicated to battery testing, performance evaluation, and energy storage research.The Wind Turbine Emulator enables controlled study of wind energy conversion, generator characteristics, and power control strategies without mechanical turbines.The Solar Concentrator Training System supports experimentation in solar thermal energy conversion, optical concentration, and heat transfer analysis.The Solar PV Emulator independently simulates photovoltaic array behaviour for power electronics testing and MPPT algorithm development.

This structure allows each system to be deployed independently across different laboratory courses and research activities.

About Systems

Battery Cycler with Data Analytics

The Battery Cycler with Data Analytics enables precise testing and characterization of battery cells, modules, and packs.

The system supports programmable charge and discharge profiles under constant current, constant voltage, constant power, and C-rate modes. Real-time measurement of voltage, current, power, capacity, and efficiency allows users to study battery behaviour across different operating conditions.

Integrated data analytics software enables long-duration cycle life testing, degradation analysis, and performance benchmarking.

This makes the Battery Cycler especially relevant for research in energy storage systems, electric vehicles, renewable energy buffering, and battery management system (BMS) algorithm validation. Students gain hands-on exposure to industry-relevant testing methodologies used in modern battery development and qualification labs.

Wind Turbine Emulator

The Wind Turbine Emulator replicates the electrical characteristics of real wind turbines without requiring rotating mechanical components.

By emulating wind speed variations, turbine torque profiles, and generator dynamics, the system allows controlled experimentation on wind energy conversion and power electronics interfaces.

Users can study generator behaviour, power control strategies, and grid-interfacing concepts under repeatable laboratory conditions.

The emulator is particularly valuable for teaching maximum power point tracking in wind systems, studying transient responses, and validating control algorithms without safety risks associated with physical turbines. This approach ensures year-round availability for experiments, independent of natural wind conditions.

Solar ETC Characterization System

The ETC Characterization System for Thermal Analysis & Fluids enables detailed experimental study of Evacuated Tube Collectors (ETCs) under controlled conditions. The system supports performance evaluation, thermal efficiency analysis, heat transfer studies, and fluid behaviour assessment—all essential for solar thermal research and engineering education.

This platform allows students and researchers to move beyond theoretical models and work directly with real thermal data, losses, and efficiency parameters relevant to industrial and research-grade solar thermal systems.

Solar PV Emulator

The Solar PV Emulator simulates the electrical output characteristics of photovoltaic arrays in real time.

It reproduces I–V and P–V curves of PV modules under varying irradiance, temperature, and shading conditions, without relying on actual sunlight.

This allows reliable testing of DC–DC converters, inverters, charge controllers, and MPPT algorithms in a controlled environment.

Students can study PV system behaviour during transients, partial shading, and fault conditions, while researchers can validate power electronics and control strategies with repeatable test cases. The PV Emulator significantly enhances laboratory productivity by enabling continuous experimentation regardless of weather or time of day.

Academic and Research Impact

The combined installation enables Jamia Millia Islamia to deliver a comprehensive renewable energy laboratory experience.

Students gain practical exposure to multiple renewable energy domains—solar thermal, solar PV, wind energy, and battery storage—within a unified experimental framework.

For researchers, the setup provides reliable platforms for performance analysis, algorithm development, and experimental validation required for academic publications and funded projects.

The installation also supports interdisciplinary work across electrical engineering, energy systems, power electronics, and sustainability studies.

How the Installation Enhances Renewable Energy Education

Enables hands-on experimentation across generation, storage, and conversion technologies
Provides weather-independent, repeatable laboratory testing
Supports project-based learning and postgraduate research
Aligns academic training with industry-standard testing practices

Why Choose Ecosense for Renewable Energy Lab Installations

Ecosense designs and delivers modular, research-oriented renewable energy laboratory systems tailored for academic institutions.

Each installation emphasizes safety, scalability, curriculum alignment, and long-term research value, enabling universities to continuously expand their laboratory capabilities as technology and educational needs evolve.

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