Abstract : Microgrid is the whole of loads and distributed generation units located at varying distances but close to each other. Power sharing control amongst distributed generation units is the main issues in the microgrids. Two techniques exists to conduct power sharing, in form of load current or active or reactive power sharing. Most of the researchers usually assume a single load in their microgrid system. The model proposed in this paper consider two microgrid interconnected, with multi loads. An optimisation of active power sharing model has been proposed. The effectiveness of the proposed method is evaluated using MatLab environment
Microgrids are small grids formed by clustering modern generating sources, storage systems, and load...
A droop control-based approach of effective power sharing among four parallel inverter-interfaced ge...
In this paper, a distributed controller is designed for regulating power flow among multiple microgr...
AbstractThis paper describes the active power sharing of multiple distributed generators (DGs) in a ...
This paper presents a mechanism for active power sharing among multiple dispatchable and distributed...
A microgrid (MG) is a cluster of loads and distributed generation units (DG) that are located in a c...
Energy management system of a microgrid (MG) is responsible for determining its optimal generation ...
Load-shedding and curtailment of renewable sources are common mechanism to prevent temporary overloa...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Microgrids comprise of emerging generation technologies such as fuel cell, solar PV, wind turbine ge...
This paper presents a new control algorithm for active load sharing in a highly-resistive inverter-c...
The functionalities of microgrids are detailed and thereby expanded in active distribution systems. ...
Active power-sharing among distributed energy sources (DESs) is not only an important way to realize...
Active distribution networks and microgrids will be powerful tools for future power systems in their...
Abstract: The increase in the price of fossil fuel due to its rarity and emissions means more integr...
Microgrids are small grids formed by clustering modern generating sources, storage systems, and load...
A droop control-based approach of effective power sharing among four parallel inverter-interfaced ge...
In this paper, a distributed controller is designed for regulating power flow among multiple microgr...
AbstractThis paper describes the active power sharing of multiple distributed generators (DGs) in a ...
This paper presents a mechanism for active power sharing among multiple dispatchable and distributed...
A microgrid (MG) is a cluster of loads and distributed generation units (DG) that are located in a c...
Energy management system of a microgrid (MG) is responsible for determining its optimal generation ...
Load-shedding and curtailment of renewable sources are common mechanism to prevent temporary overloa...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Microgrids comprise of emerging generation technologies such as fuel cell, solar PV, wind turbine ge...
This paper presents a new control algorithm for active load sharing in a highly-resistive inverter-c...
The functionalities of microgrids are detailed and thereby expanded in active distribution systems. ...
Active power-sharing among distributed energy sources (DESs) is not only an important way to realize...
Active distribution networks and microgrids will be powerful tools for future power systems in their...
Abstract: The increase in the price of fossil fuel due to its rarity and emissions means more integr...
Microgrids are small grids formed by clustering modern generating sources, storage systems, and load...
A droop control-based approach of effective power sharing among four parallel inverter-interfaced ge...
In this paper, a distributed controller is designed for regulating power flow among multiple microgr...