Título
Feeder mapping and load flow algorithms for LV distribution gridsAutor-a (de otra institución)
Grupo de investigación
Energía eléctricaAlmacenamiento de energía
Sistemas electrónicos de potencia aplicados al control de la energía eléctrica
Otras instituciones
Ormazabal Distribución Primaria, S.A.Versión
Version publicada
Derechos
© 2021 International Conference and Exhibition on Electricity DistributionAcceso
Acceso embargadoVersión del editor
https://doi.org/10.1049/icp.2021.1542Publicado en
The 26th International Conference and Exhibition on Electricity Distribution (CIRED 2021) Editor
IEEEPalabras clave
feeder mappingconnectivity model
load-flow
Resumen
With the advent of the electric vehicle, distributed generation and other emerging technologies such as heat pumps, the complexity and uncertainty of LV Distribution Networks (LVDNs) is increasing. Ad ... [+]
With the advent of the electric vehicle, distributed generation and other emerging technologies such as heat pumps, the complexity and uncertainty of LV Distribution Networks (LVDNs) is increasing. Advanced Metering Infrastructure (AMI) at both the transformer substation and consumer level is producing a significant amount of data that can be exploited for coordination and monitoring. Load-flow analysis is one key application for this data used in network studies and scenario testing to determine the voltages at all levels in the network based on expected loading and ensure that these remain at acceptable levels. Load-flow simulations require the knowledge of the connectivity model (CM), i.e. the whole set of connections between consumers and their corresponding transformer feeder and phase but this is often partially or completely unknown within typical LVDNs. This novel research proposes Feeder Mapping (FM) algorithms that have been developed to resolve the connectivity model based on AMI time series data. Classical optimisation and nature-inspired algorithms which exploit energy conservation have been developed and evaluated. A Load-Flow model using the derived CMs and based on the Backward-Forward Sweep is proposed, integrating the Fortescue transform for handling load imbalance. [-]
Colecciones
- Congresos - Ingeniería [377]