Islanding detection in a smart grid system

All distributed generators (DG), especially those connected to low voltage distribution grids are required to detect islanding conditions. The methods for detecting islanding are classified in three main categories: passive,

Project Title

Islanding detection in a smart grid system

Project Area of Specialization

Electrical/Electronic Engineering

Project Summary

All distributed generators (DG), especially those connected to low voltage distribution grids are required to detect islanding conditions. The methods for detecting islanding are classified in three main categories: passive, active and communication based. Passive methods are based on grid monitoring, are easy to implement but have a large non-detection zone in the case local generation meets the load demand. Active methods, which are commonly used today, may reduce the non-detection zone but in the case of large amount of DGs installed, power quality problems are foreseen. The communication based methods are seldom used today mainly because of high cost of communication.

However, if the islanding detection schemes can use the communication infrastructure to be deployed for smart grids, e.g. for metering, feeder automation, etc. the communication based methods will become cost competitive with the active methods without their weaknesses.

The paper also proposes a new method to be used in a smart grid infrastructure

Project Objectives

power supply is not interrupted in the island even during the Grid disturbance. This helps to supply start up power to various Power Plants to restore the system.

Restoration of island is quite easier when compared to restoration of whole system from black out state. The island is synchronized to Grid for integration

Project Implementation Method

we want to build a solar plant that will provide energy to grid in normal condition.

but solar plant will give energy to load incase of islanding.

solar energy is clean and cheap so we want to make bi directional solar plant that will feed loads in case of islanding .and will give energy to grid in normal condition.

Benefits of the Project

The main aim of this project is to decrease the load on the utility grid by generating electrical power from renewables using solar and the wind source. The proposed system helps us in listed sections.

• To generate the low cost energy
• To decrease the load on the utility grid
• To sell the surplus energy to the consumers
• For providing the power to the remote areas

To design a system without operating cost

Technical Details of Final Deliverable

Nov-Dec      Proposal, Research

Dec-April    Components assembling, verification of functionalities

April –August     Assembling, Thesis Writing

Final Deliverable of the Project

Hardware System

Core Industry

Energy

Other Industries

Core Technology

Clean Tech

Other Technologies

Sustainable Development Goals

Required Resources

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