Smart Management of Electric Vehicles
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Distribution networks are typically designed for specific electrical loads using assumptions based on typical load consumption patterns. Battery charging of Electric Vehicles (EVs) will increase the power demand in distribution networks and large scale electric transport will require smart management of the charging infrastructure. Depending on the location and times the vehicles are plugged in, they could cause local constraints on the grid. Analysis tools are required to determine the effects of adding a large number of mobile EVs to the grid, as well as the customers' location, charging time and duration on a daily basis. The main problem in the modelling of the aggregation of EVs is the representation of the uncertainties including: (i) type of residential load, (ii) EV location, (iii) rating of EV charger, (iv) EV charging occurrence and (v) EV charging duration.
An EV aggregator proposed in this research will act as a key mediator between the consumers on one side and the markets and the other power system participants on the other side. The EV aggregator may have to forecast: (i) the electricity consumption of its own customers, for forecasting the aggregator's power balance and (ii) the consumption in the electricity system, for forecasting electricity prices. The impact of EVs is significant for the Distribution Network Operators (DNOs) as there is a need to manage congestion and voltage drops. As the predicted large deployment of EVs could have an important impact on the grid it is expected to adapt the vehicle as much as possible with the existing infrastructure and this can be achieved by the integration of smart grid control techniques. The primary goal of a Smart Grid is the optimal control of the electricity distribution and the charging of EVs can be controlled to reduce peak load.
In order to answer these questions, this project draws on methodologies and results across the boundaries of engineering and informatics. This is an exciting opportunity to bring qualitative and quantitative research methods together to study a complex system covering load forecasting and smart management of EVs. This project aims to (i) investigate control algorithms for smart management of EVs considering the spatial diversity of EVs throughout the network and temporal diversity of EV charging patterns and (ii) demonstrate a practical way of implementing control algorithms to facilitate the future deployment of EVs by laboratory validation.
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Potential Impact:
This project will investigate control algorithms to facilitate the future deployment of EVs. The research will:
- Produce open source algorithms for the smart management of electric vehicles that could provide the basis for other researchers to verify and build on this work.
- Provide a classification of the historical data set obtained from Plugged in Places projects if these will be available.
- Provide a smart management control algorithms for the charging of electric vehicles.
- Validate the algorithms against real time simulation and laboratory tests.
The main beneficiaries of this research will be the distribution network operators as the day-ahead short-term load forecasting accuracy affects the economic operation and reliability of the system. Furthermore the electric vehicles aggregation control algorithms will assist distribution system operators to avoid system reinforcement.
Additional beneficiaries include government and policy representatives (e.g. WAG, and the European Commission), third sector organisations (e.g. Future Transport Systems, Energy Saving Trust, Carbon Trust), representatives of the energy industry (UPL Utility Infrastructure & Energy Management, Mott MacDonald) and academics across a number of disciplines.
The international collaboration with TECNALIA technology centre in Basque country will provide a basis for future collaboration on research projects.
In addition the applicant will also collaborate with the Cardiff School of Engineering's newly established Knowledge Transfer Centre. This Centre, funded by the Welsh Assembly Government, is designed to facilitate the transfer of technology developed within the School to the commercial sector, and is recruiting experienced Technology Translators to assist in this work. The project will be able to draw on their expertise in knowledge transfer activities in order to achieve maximum impact and help the UK remain at the forefront of engineering technology.
Publications are a vital part of the dissemination strategy. Successful research results will be published in high-impact factor journals.
| Cardiff University | LEAD_ORG |
| Cenex | COLLAB_ORG |
| Schneider Electric Ltd UK | COLLAB_ORG |
| Liana Cipcigan | PI_PER |
Subjects by relevance
- Electrical power networks
- Distribution of electricity
- Smart grids
- Electric cars
- Infrastructures
Extracted key phrases
- Smart Management
- Smart management control algorithm
- Electric vehicle aggregation control algorithm
- Smart Grid
- Smart grid control technique
- Typical load consumption pattern
- Distribution network operator
- Specific electrical load
- Distribution system operator
- Electric Vehicles
- Electricity distribution
- Energy Management
- Term load forecasting accuracy
- Optimal control
- Large scale electric transport