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The rapid growth of electric vehicles (EVs) will include electric grid stress from EV chargers and produce a large number of diminished EV batteries. EV batteries are expected to retain about 80 % of their original capacity at the end of vehicle life. Employing these in second-use battery energy storage systems (2-BESS) as energy buffers for EV chargers further reduces the environmental impact of battery manufacturing and recycling. One of the obstacles that limits performance and cost to 2-BESS is the heterogeneity of second-use batteries. In this paper, we show that a structure for power processing within a 2-BESS with hierarchical partial power processing can be optimally designed for stochastic variation in EV demand, dynamic grid constraints, and statistical variation in battery capacity. Statistically-structured hierarchical partial power processing shows better battery energy utilization, lower derating, and higher captured value in comparison to conventional partial power processing and full power processing for similar power conversion cost.
Repurposing automotive batteries to second-use battery energy storage systems (2-BESS) may have environmental and economic benefits. The challenge with second-use batteries is the uncertainty and diversity of the expected packs in terms of their chem
Lithium-ion batteries are increasingly being deployed in liberalised electricity systems, where their use is driven by economic optimisation in a specific market context. However, battery degradation depends strongly on operational profile, and this
The increased uptake of electric vehicles (EVs) leads to increased demand for electricity, and sometime pressure to power grids. Uncoordinated charging of EVs may result in putting pressure on distribution networks, and often some form of optimisatio
In this paper, we investigate the feasibility and physical consequences of cyber attacks against energy management systems (EMS). Within this framework, we have designed a complete simulation platform to emulate realistic EMS operations: it includes
This paper proposes a distributed framework for vehicle grid integration (VGI) taking into account the communication and physical networks. To this end, we model the electric vehicle (EV) behaviour that includes time of departure, time of arrival, st