Professor Liana Cipcigan
Projects as PI
- Accelerating the ICE-to-EV transition (01/05/2022 - 31/10/2022)
- A data-driven approach for optimal distribution network operation with rapid charging infrastructure and large-scale battery storrage (01/11/2020 - 31/03/2022)
- Agent-based controllers for electric vehicles and microgenerators (11/06/2012 - 30/04/2013)
- Cloud-based Virtual Power Plant (C-VPP) software platform, pathway to market (01/02/2019 - 29/02/2020)
- Decarbonising transport through electrification, a whole system approach (DTE) (20/08/2019 - 31/12/2023)
Projects as Co-Investigator
- Accelerating the deployment of offshore wind using DC technology
(01/10/2022 - 30/09/2026) - A Digital Twin for Optimised Rail Decarbonisation (01/09/2023 - 31/12/2023)
- Characterisation and Optimisation of Battery Banks in Substations (COBBS) (25/07/2023 - 31/01/2026)
- Economics and grid planning for smart electromobility (31/12/2013 - 31/12/2016)
- Empowering e-fleets for business and private purposes in cities
(01/04/2013 - 31/03/2016)
Research Datasets
- Airport electrified ground support equipment for providing ancillary services to the grid: input and result data - Alruwaili M, Cipcigan L (2022). Cardiff University. 10.17035/d.2022.0226708285. Power Systems Management Protection and Control Power Systems Plant
- Data supporting "Predicting the energy demand of buildings during triad peaks in GB" - Marmaras C, Javed A, Cipcigan LM (2017). Cardiff University. 10.17035/d.2017.0032657812. Electrical engineering Energy
- Data supporting 'Simulation of electric vehicle driver behaviour in road transport and electric power networks' - Marmaras C, Xydas E, Cipcigan LM (2017). Cardiff University. 10.17035/d.2017.0034924002. Electrical engineering Energy Driver Behaviour
- Impact of Optimised Distributed Energy Resources on Local Grid Constraints - Sani Hassan A, Cipcigan LM, Jenkins N (2017). Cardiff University. 10.17035/d.2017.0041953338. Distributed Power Generation Energy network simulation
- Optimal Annual Operational Cost of a Hybrid Renewable-Based Microgrid to Increase the Power Resilience of a Critical Facility: Data - Alruwaili Mohammed, Cipcigan Liana M (2022). Cardiff University. 10.17035/d.2022.0228051199. Power Systems Management Protection and Control Power Systems Plant