Add to ORKGMicrogrids (MGs) are promising approaches to proliferate distributed energy resources for electrification in remote areas. However, to deal with the uncertainties of renewables and energy demand, special measures are required. Energy storages, controllable loads and reconfigurable networks are some of those measures that improve MGs’ flexibility. Another alternative is temporarily coupling the adjacent MGs to support each other and form coupled MGs (CMGs). This paper proposes a look-ahead technique to form CMGs while reassuring the optimal performance of all MGs. Preserving the voltage and frequency of each MG is also another key objective. The proposed optimization approach tries to solve the voltage/frequency problem by forming the CMGs w...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
A standalone microgrid (MG) may frequently experience overloading owing to insufficient power genera...
It is expected that a microgrid (MG) can supply its local loads independently; however the load and ...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Microgrid (MG) is a promising approach to proliferate distributed energy resources for electrificati...
Microgrids (MGs) are referred to as isolated and self-sufficient electricity supply systems that wel...
A voltage-frequency management technique is proposed in this paper to retain these quantities within...
A new technique is proposed in this paper to manage the frequency and voltage of standalone remote a...
Load-shedding and curtailment of renewable sources are common mechanism to prevent temporary overloa...
Majority of the remote areas have self-sufficient and isolate electricity systems. These systems are...
© 2016 IEEE.Majority of the remote areas have self-sufficient and isolate electricity systems. These...
The two common mechanisms of load-shedding and renewable curtailment can prevent provisional overloa...
Regarding different challenges, such as integration of green energy and autonomy of microgrid (MG) i...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
This paper proposes a management technique which will retain the voltage and frequency of standalone...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
A standalone microgrid (MG) may frequently experience overloading owing to insufficient power genera...
It is expected that a microgrid (MG) can supply its local loads independently; however the load and ...
Large remote areas may consist of multiple microgrids (MG), each owned and operated by a different o...
Microgrid (MG) is a promising approach to proliferate distributed energy resources for electrificati...
Microgrids (MGs) are referred to as isolated and self-sufficient electricity supply systems that wel...
A voltage-frequency management technique is proposed in this paper to retain these quantities within...
A new technique is proposed in this paper to manage the frequency and voltage of standalone remote a...
Load-shedding and curtailment of renewable sources are common mechanism to prevent temporary overloa...
Majority of the remote areas have self-sufficient and isolate electricity systems. These systems are...
© 2016 IEEE.Majority of the remote areas have self-sufficient and isolate electricity systems. These...
The two common mechanisms of load-shedding and renewable curtailment can prevent provisional overloa...
Regarding different challenges, such as integration of green energy and autonomy of microgrid (MG) i...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
This paper proposes a management technique which will retain the voltage and frequency of standalone...
Large remote areas normally have isolated and self-sufficient electricity supply systems, often refe...
A standalone microgrid (MG) may frequently experience overloading owing to insufficient power genera...
It is expected that a microgrid (MG) can supply its local loads independently; however the load and ...