The goal of this paper is to demonstrate the powerful contribution of the electric active power flow tracing methods on studying the electric transmission systems operating conditions. The tracing methods allow to impute to every generation unit and/or load the responsibility of the power flows of all the elements connected to the network. This study propose the numerical implementation of two different tracing methods on two transmission networks through Matlab® scripts developed on purpose; then the analysis is focused on identifying the loads which mostly affect the power line flows of the system. The results of this analysis point out the loads on which the application of the Demand Response (DR) programs are more effective in view of solving system congestions.
Dusonchet, L., Favuzza, S., Ippolito, M.G., Massaro, F., Paternò, G. (2015). Numerical implementation of active power flow tracing methods: Practical implications on transmission networks and DR programs support. In Proceedings of 15th IEEE International Conference on Environment and Electrical Engineering - EEEIC 2015 (pp. 531-536). Institute of Electrical and Electronics Engineers Inc. [10.1109/EEEIC.2015.7165218].
Numerical implementation of active power flow tracing methods: Practical implications on transmission networks and DR programs support
DUSONCHET, Luigi;FAVUZZA, Salvatore;IPPOLITO, Mariano Giuseppe;MASSARO, Fabio;Paternò, Giuseppe
2015-01-01
Abstract
The goal of this paper is to demonstrate the powerful contribution of the electric active power flow tracing methods on studying the electric transmission systems operating conditions. The tracing methods allow to impute to every generation unit and/or load the responsibility of the power flows of all the elements connected to the network. This study propose the numerical implementation of two different tracing methods on two transmission networks through Matlab® scripts developed on purpose; then the analysis is focused on identifying the loads which mostly affect the power line flows of the system. The results of this analysis point out the loads on which the application of the Demand Response (DR) programs are more effective in view of solving system congestions.
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