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 Savings Made Simple: Know Your Cost Cuts in 2025
Maximize your solar savings in 2025. Learn how solar energy reduces electricity costs for homes and businesses.
Agrovoltaics Innovation: Boosting Solar Energy While Supporting Farming
Explore agrovoltaics innovation: how combining solar energy with farming boosts efficiency, supports agriculture, and maximizes land use.
Solar Rooftop: अपने घर को बनाओ खुद का पावर हाउस | Complete Guide
सौर रूफटॉप सिस्टम आपके घर को पावर हाउस बना सकता है। यह न केवल बिजली के बिलों में बचत करता है, बल्कि साफ और नवीकरणीय ऊर्जा भी प्रदान करता है। जानें सौर पैनल की इंस्टालेशन प्रक्रिया, लागत, लाभ और कैसे यह आपके घर को आत्मनिर्भर ऊर्जा का स्रोत बना सकता है।
Solar Energy Myths vs. Facts: What You Should Know
Solar power myths often mislead homeowners. Learn the facts about cost, efficiency, and reliability of solar energy.
500 kW Solar Power Plant Cost in UP 2025 | Latest Price, Subsidy & ROI
Thinking of setting up a 500 kW solar power plant in Uttar Pradesh? Discover the 2025 cost estimate, available subsidies, and expected ROI. Learn how commercial and industrial projects in UP can reduce energy expenses and achieve long-term savings with solar energy.
Latest MNRE List: Approved Solar Module Manufacturers
Check the latest MNRE-approved list of solar module manufacturers to ensure quality and compliance for your solar projects in India.
Solar for Commercial Buildings in India: Costs, Benefits & ROI Explained
Solar for commercial buildings in India is becoming the smartest way to cut electricity bills and increase energy independence. This guide explains system costs, benefits, ROI, and how solar power helps offices, malls, hotels, and commercial complexes become more sustainable and profitable.
Solar Industry Faces Growing Losses from Underperforming Equipment
According to the Raptor Maps’ Global Solar Report, the amount of power loss due to equipment anomalies has nearly doubled from 1.61% in 2019 to 3.13% in 2022. This trend is expected to continue, with anomaly-driven power loss potentially growing to almost 6% by 2025.