The electrification of the energy sector challenges the conventional methods to meet the increased load demand. The rapid increase of electric vehicles and the desire for shorter charging time at fast charging stations (FCS) contributes to higher power peaks in local distribution grids. This may lead to capacity issues, where a battery storage can be considered as an alternative to reinforcing the grid. This paper proposes a novel optimisation model including degradation that minimises operational costs for an actual FCS in Norway with a battery system. A case study is performed, where installing a battery system is compared to traditional grid reinforcement. The result of the case study shows that the total cost was 0.9 million NOK 1 highe...
The power system is experiencing an increasing share of renewable and intermittent energy production...
The electrical grid is facing a modernization due to installations of intermittent energy production...
This research work has resulted in an optimisation strategy for operation of batteries in a power sy...
International audienceElectric Vehicles (EVs) will be in a near future a non-negligible part of the ...
Is battery energy storage a feasible solution for lowering the operational costs of electric vehicle...
International audienceElectric Vehicles (EVs) will be in a near future a non-negligible part of the ...
The electrification of the transport industry is rapidly becoming a solution to mitigate the greenho...
This paper discusses the design and optimization of electric vehicles’ fast-charging stations with o...
The need for proper fast charging infrastructures is one of the key challenges for the wide adoption...
When does large scale battery storage become economically feasible? To answer this question and put ...
This study investigates the economic benefits of installing a lithium-ion battery storage (lithium i...
The increasingly widespread use of electric vehicles requires proper planning of the charging infras...
This project investigates the viability of using reconditioned batteries, which have lost part of th...
The increasing use of electric vehicles (EV) brings up the need to invest in the charg- ing infrast...
The power system is experiencing an increasing share of renewable and intermittent energy production...
The electrical grid is facing a modernization due to installations of intermittent energy production...
This research work has resulted in an optimisation strategy for operation of batteries in a power sy...
International audienceElectric Vehicles (EVs) will be in a near future a non-negligible part of the ...
Is battery energy storage a feasible solution for lowering the operational costs of electric vehicle...
International audienceElectric Vehicles (EVs) will be in a near future a non-negligible part of the ...
The electrification of the transport industry is rapidly becoming a solution to mitigate the greenho...
This paper discusses the design and optimization of electric vehicles’ fast-charging stations with o...
The need for proper fast charging infrastructures is one of the key challenges for the wide adoption...
When does large scale battery storage become economically feasible? To answer this question and put ...
This study investigates the economic benefits of installing a lithium-ion battery storage (lithium i...
The increasingly widespread use of electric vehicles requires proper planning of the charging infras...
This project investigates the viability of using reconditioned batteries, which have lost part of th...
The increasing use of electric vehicles (EV) brings up the need to invest in the charg- ing infrast...
The power system is experiencing an increasing share of renewable and intermittent energy production...
The electrical grid is facing a modernization due to installations of intermittent energy production...
This research work has resulted in an optimisation strategy for operation of batteries in a power sy...