© 2016 IEEE.Majority of the remote areas have self-sufficient and isolate electricity systems. These systems are preferred to generate the majority of the electricity from renewable energy resources if they are available in the area to reduce the cost of electricity production. Thereby, they can be assumed as sustainable islanded microgrids. Large remote areas may be supplied by multiple adjacent microgrids, each with a different operator. The adjacent microgrids may couple and exchange power temporarily to support each other under emergencies such as overloading, generation shortfalls, or faults. Defining the suitable nearby microgrid(s) to be coupled is a challenging task. This paper uses a heuristic-based optimization approach to evaluat...
Wind-photovoltaic stand-alone electrification systems are a suitable option to provide electricity t...
© 2016 IEEE. A microgrid is supposed to supply its demand self-sufficiently. However, the generation...
Microgrid (MG) is a promising approach to proliferate distributed energy resources for electrificati...
Majority of the remote areas have self-sufficient and isolate electricity systems. These systems are...
© 2016 IEEE.Electrical system of remote areas is usually in the form of a standalone system. Renewab...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
Microgrids (MGs) are promising approaches to proliferate distributed energy resources for electrific...
Microgrid is expected to supply its local loads independently. But, due to intermittency of wind and...
© 2015 IEEE. Power deficiency management is an important factor in the operation of remote microgrid...
Even though microgrids are generally assumed to operate either in grid-connected or islanded modes, ...
Microgrids have become valuable assets because they improve the reliability of consumers while integ...
It is expected that a microgrid (MG) can supply its local loads independently; however the load and ...
The microgrids can function as a single controllable system in a grid-connected or islanded operatio...
Remote area microgrids (MG) can experience overloading or power deficiency throughout their dynamic ...
Wind-photovoltaic stand-alone electrification systems are a suitable option to provide electricity t...
© 2016 IEEE. A microgrid is supposed to supply its demand self-sufficiently. However, the generation...
Microgrid (MG) is a promising approach to proliferate distributed energy resources for electrificati...
Majority of the remote areas have self-sufficient and isolate electricity systems. These systems are...
© 2016 IEEE.Electrical system of remote areas is usually in the form of a standalone system. Renewab...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
Microgrids (MGs) are promising approaches to proliferate distributed energy resources for electrific...
Microgrid is expected to supply its local loads independently. But, due to intermittency of wind and...
© 2015 IEEE. Power deficiency management is an important factor in the operation of remote microgrid...
Even though microgrids are generally assumed to operate either in grid-connected or islanded modes, ...
Microgrids have become valuable assets because they improve the reliability of consumers while integ...
It is expected that a microgrid (MG) can supply its local loads independently; however the load and ...
The microgrids can function as a single controllable system in a grid-connected or islanded operatio...
Remote area microgrids (MG) can experience overloading or power deficiency throughout their dynamic ...
Wind-photovoltaic stand-alone electrification systems are a suitable option to provide electricity t...
© 2016 IEEE. A microgrid is supposed to supply its demand self-sufficiently. However, the generation...
Microgrid (MG) is a promising approach to proliferate distributed energy resources for electrificati...