Detailed impact assessment of the application of Smart Technologies of the IElectrix project in 3 sections, to enable a faster and affordable connection of new assets, fostered by green recovery funds

Section 1 Analysis of the potential to increase the photovoltaic PV hosting capacity in the existing medium voltage MV distribution networks in Hungary An analysis of constrained network sites and a summary of conclusions describing the scalability of utilityscale battery energy storage system BESS based solutions needed for Hungary to meet its 2030 PV development targets This deliverable will compare business models around ownership and operation of the BESS assets by DSO and other market actors Section 2 Solution to manage the mass connection of distributed residential generation boosted by green recovery funds Specification of a demand response solution for low voltage LV network congestion management to control residential assets such as PV and BESS and provide voltage control in the LV distribution network of Hungary Based upon the solution there will be a study of the market deployment potential of this system assessment of the impact on the national decarbonization plans of the residential sector and possibilities of its further extension to add the control to other residential load assets Section 3 Smart technologies for the electrification of remote villages Analysis of the replicability and scalability of storage systems local generation and load control to decarbonise Hungarian villages that have weak connections to the distribution network