Group Net Metering for Solar Projects: A Smart Way to Maximize Solar Energy Generation
Group Net Metering for Solar Projects: A Smart Way to Maximize Solar Energy Generation
Group Net Metering Case Study
The Sri Aurobindo International Centre of Education (SAICE) of the Aurobindo Ashram in Puducherry is perhaps the first educational institution to become self-reliant by meeting all its energy requirements through solar energy.
Grid-tied solar power plants have been installed on the rooftop of the Centre of Education building, Salle d’Art, Library and the Dining Hall with a cumulative capacity of around 130 kW. Subsequently, these rooftop power plants produce over 16,000 units of electricity per month.
The four buildings altogether themselves consume less than half of the electricity generated. Excess electricity is exported to compensate for the electricity consumed by other Ashram buildings. Thereby avoiding transmission and distribution losses.
Group Net Metering
The Ashram did not avail any Government capital subsidy and instead opted for the Group Net Metering facility. A unique feature of the Solar Energy Regulations of December 2014 by the Joint Electricity Regulatory Commission (JERC) for Goa and Union Territories. These Regulations provide for the surplus solar energy produced by a consumer to be adjusted in the electricity bill of another service connection (Group Net Metering) of the consumer within the State or Union Territory.
This provision facilitates optimal usage of rooftops that are suitable for solar energy in cities where land availability is limited. The performance of the four solar power plants is being tracked online using a remote monitoring system called Wattmon developed in Auroville.
The Wattmon system also monitors voltage, current, power output, solar inverter efficiency, cumulative electricity produced at any time of the day.
Suggested Articles

How to Calculate Savings from Rooftop Solar Solutions: A Complete Guide
Calculating savings from rooftop solar solutions is essential for planning your investment. This guide explains how to estimate cost reduction, return on investment, and long-term financial benefits for residential, commercial, and industrial solar projects.

Optimizing Solar Layout for DC Combiner Box Placement
A complete guide to choosing the best location for DC combiner box placement to improve safety, cable routing, and solar system efficiency.

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.

Data Acquisition System Calibration in Solar PV Plants
A complete guide to solar PV data acquisition system calibration, ensuring accurate monitoring, reliable data collection, and effective performance analysis.

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.

Solar PV Maximum Working Voltage: Limits & Design Guide
A complete guide to maximum working voltage in solar PV systems, covering limits, calculations, and key design considerations.

SECI Sets Record in Renewable Energy Trading, Surpasses ₹100 Billion
SECI achieves record renewable power trading revenue surpassing ₹100 billion, marking a milestone in India’s clean energy growth and solar market expansion.

Grounding Conductor Sizing for Solar PV Systems
A complete guide to determining grounding conductor size for solar PV systems, ensuring safe, compliant, and reliable installations.