Design of protection and control scheme for hybrid nanogrid

Abstract Nanogrid is “The new ray of hope” for people living in remote isolated locations as well as where power supply reliability is poor. A nanogrid is a small power capacity distribution system with the ability to operate standalone or with a utility grid. It consists of local power production s...

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Main Authors: Sachin P. Jolhe, Gunwant A. Dhomane, Minal D. Karalkar
Format: Article
Language:English
Published: SpringerOpen 2021-12-01
Series:Protection and Control of Modern Power Systems
Subjects:
Online Access:https://doi.org/10.1186/s41601-021-00213-y
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author Sachin P. Jolhe
Gunwant A. Dhomane
Minal D. Karalkar
author_facet Sachin P. Jolhe
Gunwant A. Dhomane
Minal D. Karalkar
author_sort Sachin P. Jolhe
collection DOAJ
description Abstract Nanogrid is “The new ray of hope” for people living in remote isolated locations as well as where power supply reliability is poor. A nanogrid is a small power capacity distribution system with the ability to operate standalone or with a utility grid. It consists of local power production supplying local loads and energy storage systems. In this paper, an innovative inverter design is presented, which converts the power in a single stage. It is superior to the traditional two-stage inverter system and can supply hybrid loads (AC and DC loads) with a single input. System AC and DC bus voltages are regulated under both steady-state and dynamic load variation conditions in the nanogrid. Simulation results are presented which confirm the suitability of the inverter and its control strategy for a hybrid nanogrid system.
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spelling doaj.art-d436b081e8d54ef488b74c4ed0f5ed692022-12-21T21:43:27ZengSpringerOpenProtection and Control of Modern Power Systems2367-26172367-09832021-12-01611710.1186/s41601-021-00213-yDesign of protection and control scheme for hybrid nanogridSachin P. Jolhe0Gunwant A. Dhomane1Minal D. Karalkar2Department of Electrical Engineering, Government College of EngineeringDepartment of Electrical Engineering, Government College of EngineeringDepartment of Electrical Engineering, Government College of EngineeringAbstract Nanogrid is “The new ray of hope” for people living in remote isolated locations as well as where power supply reliability is poor. A nanogrid is a small power capacity distribution system with the ability to operate standalone or with a utility grid. It consists of local power production supplying local loads and energy storage systems. In this paper, an innovative inverter design is presented, which converts the power in a single stage. It is superior to the traditional two-stage inverter system and can supply hybrid loads (AC and DC loads) with a single input. System AC and DC bus voltages are regulated under both steady-state and dynamic load variation conditions in the nanogrid. Simulation results are presented which confirm the suitability of the inverter and its control strategy for a hybrid nanogrid system.https://doi.org/10.1186/s41601-021-00213-yHybrid nanogridInverterBattery storageDeep discharge protectionOvervoltage protection
spellingShingle Sachin P. Jolhe
Gunwant A. Dhomane
Minal D. Karalkar
Design of protection and control scheme for hybrid nanogrid
Protection and Control of Modern Power Systems
Hybrid nanogrid
Inverter
Battery storage
Deep discharge protection
Overvoltage protection
title Design of protection and control scheme for hybrid nanogrid
title_full Design of protection and control scheme for hybrid nanogrid
title_fullStr Design of protection and control scheme for hybrid nanogrid
title_full_unstemmed Design of protection and control scheme for hybrid nanogrid
title_short Design of protection and control scheme for hybrid nanogrid
title_sort design of protection and control scheme for hybrid nanogrid
topic Hybrid nanogrid
Inverter
Battery storage
Deep discharge protection
Overvoltage protection
url https://doi.org/10.1186/s41601-021-00213-y
work_keys_str_mv AT sachinpjolhe designofprotectionandcontrolschemeforhybridnanogrid
AT gunwantadhomane designofprotectionandcontrolschemeforhybridnanogrid
AT minaldkaralkar designofprotectionandcontrolschemeforhybridnanogrid