Solar Rooftop Projects: Benefits of Intentional Islanding for Power Backup
Solar Rooftop Projects: Benefits of Intentional Islanding for Power Backup
Intentional Islanding in solar
Intentional Islanding in solar occurs when a solar rooftop system continues to supply to a load even when the grid is down; this can be very dangerous. Therefore, when the grid is down, the inverter, used in the rooftop system solar power plant for generating solar energy for home/industrial/commercial roof top, stops supplying power.
Intentional Islanding in solar is a technical requirement for inverters strictly mandated by CEA and MNRE. However, in view of frequent grid outages in most States, particularly in industry, commercial and institutional establishments, the rooftop system should be able to disconnect from the grid. Thus system should supply continuously solar power to the loads of such establishments using a battery storage system or in synergy with the backup diesel generator. Otherwise, the solar power will be wasted.
Intentional Islanding in Solar Option 1
Intentional Islanding in solar is possible through additional advanced features to be provided in inverters. The hybrid inverter which could work in the off-grid mode and continue to charge batteries with generated power. The inverter can continue to function in grid-tied mode in synergy with the larger backup diesel generator.
Intentional Islanding in Solar Option 2
Generally, for most industrial, commercial and institutional establishments, the second option is more feasible as they have large existing backup diesel generators for their loads. Such backup facilities already have the required safety features which prevent reverse flow to the grid.
Rooftop solar with the right type of inverter is, therefore, technically feasible even when the grid is down, and can also be more cost-effective compared to costlier diesel generation.
For harnessing the full potential of rooftop solar as envisioned by Government, CEA and MNRE should consider allowing such ‘intentional islanding in solar’ rooftop projects. They should formulate technical specifications of inverters with such additional advanced features for automatic and safe operation.
Ref: Grid Integration of Distributed Solar Photovoltaics (PV) in India, Prayas Energy Group, 2014
Suggested Articles
Solar Module Support & Racking Frame Installation
A practical guide to solar racking frame installation, covering module support structures, alignment, and best practices for reliable PV systems.
PPE Checklist for Solar Installations: Safety Gear Guide
A complete PPE checklist for solar installations covering essential safety gear required for safe and efficient on-site work.
Series Connection of PV Modules – Effect on Voltage and Current
Connecting PV modules in series is a common practice in solar installations. This guide explains how series connections affect voltage and current and why they are used in solar PV systems.
Everything you Need to Know about Bifacial Solar Panels technology
Learn how bifacial solar panels capture sunlight on both sides, boosting energy efficiency and maximizing solar power generation for homes and businesses.
Battery Bank Enclosure & Rack Installation Guide
A complete guide to battery bank enclosure and rack installation, including site verification, setup procedures, and safety practices for solar PV systems.
Get a Customized Industrial Solar Quote for Your Manufacturing Unit
Request a customized industrial solar quote in India. Know pricing, savings, payback & EPC scope for your factory solar project.
Solar System for FMCG Industry: Cost, Benefits, Installation & ROI in India
A complete guide on solar systems for the FMCG industry in India covering installation cost, benefits, ROI, system sizing, and the installation process.
Civil Structural General Arrangement (GA) Drawing in Solar Projects: Complete Design & Layout Guide
A Civil Structural General Arrangement (GA) drawing in solar projects is a detailed layout that defines the placement of solar modules, mounting structures, inverters, and civil foundations. It plays a crucial role in ensuring accurate design, optimal space utilization, and smooth execution of both rooftop and ground-mounted solar installations. This guide explains the key components, design considerations, and best practices for creating effective GA drawings in solar EPC projects.