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by Monaaf Al-Falahi, Technical Project Coordinator, Energy Networks Australia

With electric vehicle (EV) sales now equating to two per cent of new cars sold and many car manufacturers phasing out fuel combustion engine development and manufacturing, Australian networks are considering how the electricity grid needs to be prepared for the increasing EV uptake.

A recent State of Electric Vehicles report by the Electric Vehicle Council indicated that EV sales in Australia have tripled in 2021. This increase represents a two per cent market share of all sales, compared with 0.78 per cent in 2020. The question is, are distribution networks ready for the EV uptake?

The University of Melbourne’s EV Management and Time-of-Use Tariffs report explores possible approaches to mitigate impacts from residential EV chargers on distribution networks.

The report is part of the collaborative EV Integration project between Energy Networks Australia, University of Melbourne, the Centre for New Energy Technologies, and the Australian Power Institute. This report investigates the effectiveness of EV management strategies and time of use (ToU).

Selected rural and urban feeders (powerlines) for New South Wales, Tasmania and Victoria were considered in the study. It should be noted that the results presented apply to those feeders only, not the whole distribution network.

EV management strategy

There is a range of EV charging management strategies. This study utilised direct management of chargers, given it did not require models of low voltage (LV) feeders which are not readily available for most distribution network service providers (DNSPs). Sensors were installed on certain locations on the feeder to measure and monitor thermal and voltage changes.

When the sensors detected changes outside optimal operating limits, a signal was sent to the EV chargers to connect or disconnect. The report is not recommending which entity should manage these chargers, but rather aims to investigate the effectiveness of EV management strategies in terms of the impacts on customers and networks.

Some of high-level findings detailed in the report include:

  • Number of impacted customers: Most EV customers were not impacted by the EV management strategy. Even for the worst-performing feeder (rural Victoria), 62 per cent of customers were not impacted at 100 per cent EV penetration (100 per cent penetration means all residential customers connected to the feeder have EVs)
  • Charging time: Implementing the direct EV management strategy could increase the charging time by maximum of three hours, while the average time increase was one hour. In a small number of cases, the charging time was increased by more than three hours
  • Location: Customers in urban areas were found to be much less likely to be impacted by higher EV penetration compared with customers in rural areas. Rural areas required much more significant management (e.g. approximately 38 per cent of customers were impacted in the rural VIC feeder considered in this study)
  • Hosting capacity: The findings show that a two to four-times increase in hosting capacity could be achieved with acceptable impacts (delays) to customers, as the EVs would still be charged by the morning

Time-of-use tariffs

ToU tariffs can be used to incentivise customers to shift their charging time to off-peak periods. The ToU strategy investigated in this study aims to understand the rate of customer adoption of ToU to the EV hosting capacity, i.e. how many customers needed to adopt ToU to reduce network issues.

Some of the high-level findings detailed in the report include:

  • ToU adoption rate vs EV hosting capacity: If 20 to 40 per cent customers are on ToU tariff, the EV hosting capacity can be increased by 20 per cent
  • ToU tariffs might not be enough on their own: In some congested feeders, the ToU tariffs need to be combined with an additional solution, e.g. an EV management strategy
  • Additional benefits beyond increasing hosting capacity: Generally, higher adoption of ToU tariffs reduce the magnitude of asset congestion, which means less investment is needed to manage these issues. This could provide a better value-for-money return for customers and DNSPs

The main take away from the study is that implementing an EV management strategy could help increase EV hosting capacity and reduce network issues. Combining EV management with ToU tariffs can maximise these benefits and save customers money in bills by increasing network utilisation and reducing the need for investment.

Generally, such solutions can be considered for the short or medium-term given that they do not require detailed models of LV networks and significant asset replacement or augmentation. These solutions may be applicable for the long term if modified and combined with other approaches to form a complete solution.

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