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Distributed flexibility as a cost-effective alternative to grid reinforcement

Jordan Holweger, Alejandro Pena-Bello, Noémie Jeannin, Christophe Ballif, N. Wyrsch

2023Sustainable Energy Grids and Networks16 citationsDOIOpen Access PDF

Abstract

The deployment of distributed photovoltaics (PV) in low-voltage networks may cause technical issues such as voltage rises, line ampacity violations, and transformer overloading for distribution system operators (DSOs). These problems may induce grid reinforcement costs, which are typically high. We establish a new methodology to price and reward flexibility within low-voltage networks, in the case DSOs are able to control distributed assets. Under such assumptions, we compare the cost of providing flexibility and the cost of grid reinforcement using the CIGRE low-voltage network as a case study. Our results highlight that using distributed flexibility is more profitable than reinforcing a low-voltage network until the PV generation covers 145% of the network’s annual energy demand.

Topics & Concepts

Flexibility (engineering)Distributed generationAmpacitySoftware deploymentGridComputer scienceReliability engineeringPhotovoltaicsSmart gridTransformerDemand responseDistributed computingElectricityVoltagePhotovoltaic systemElectrical engineeringEngineeringRenewable energyEconomicsMathematicsOperating systemManagementGeometryElectrical conductorSmart Grid Energy ManagementOptimal Power Flow DistributionMicrogrid Control and Optimization
Distributed flexibility as a cost-effective alternative to grid reinforcement | Litcius