Browsing by Author "Kockar, Ivana"
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Item SmartNet: H2020 project analysing TSO–DSO interaction to enable ancillary services provision from distribution networks: H2020 project analysing TSO- DSO interaction to enable ancillary services provision from distribution networks(2017-10-01) Migliavacca, Gianluigi; Rossi, Marco; Six, Daan; Džamarija, Mario; Horsmanheimo, Seppo; Madina, Carlos; Kockar, Ivana; Morales, Juan Miguel; POWER SYSTEMSThis study presents an overview of the results obtained during the first year of the SmartNet project, which aims at comparing possible architectures for optimised interaction between transmission system operator (TSOs) and distribution system operator (DSOs), including exchange of information for monitoring as well as acquisition of ancillary services (reserve and balancing, voltage regulation, congestion management), both for local needs and for the entire power system. The results concerning TSO-DSO coordination schemes, market design and information and communication technology (ICT) architectures are shown along with the layout of the three technological pilot projects.Item TSO-DSO coordination to acquire services from distribution grids: Simulations, cost-benefit analysis and regulatory conclusions from the SmartNet project: Simulations, cost-benefit analysis and regulatory conclusions from the SmartNet project(2020-12) Rossi, Marco; Migliavacca, Gianluigi; Viganò, Giacomo; Siface, Dario; Madina, Carlos; Gomez, Inés; Kockar, Ivana; Morch, Andrei; POWER SYSTEMSThe continuously growing distributed generation and the business potential for demand response are gradually enabling significant provision of flexibility and reserve towards distribution networks. For this reason, transmission and distribution system operators need to coordinate their operation in order to develop efficient market arrangements that can help utilize all the resources capable of providing ancillary services. SmartNet project investigated the potential interaction schemes between network operators, together with the possible new services devoted to the optimal distribution grid management. This paper summarizes the main challenges in simulating complex electricity systems and flexibility markets for three European countries (Italy, Denmark and Spain) in 2030 scenarios. The simulation results are then analyzed using cost-benefit analysis and regulatory conclusions are deduced.