Cost-effective rehabilitation of public buildings into smart and resilient nano-grids using storage (Q4297130): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed an Item: Edited by the materialized bot - inferring region from the coordinates)
(‎Changed an Item: Edited by the materialized bot - inferring region from the coordinates)
Property / contained in NUTS
 
Property / contained in NUTS: Θεσσαλονίκη / rank
 
Normal rank

Revision as of 09:33, 17 June 2022

Project Q4297130 in Greece, فلسطين, Italy, Cyprus
Language Label Description Also known as
English
Cost-effective rehabilitation of public buildings into smart and resilient nano-grids using storage
Project Q4297130 in Greece, فلسطين, Italy, Cyprus

    Statements

    0 references
    0 references
    0 references
    0 references
    2,581,440.71 Euro
    0 references
    2,868,267.46 Euro
    0 references
    90.0 percent
    0 references
    2 September 2019
    0 references
    1 September 2022
    0 references
    University of Cyprus
    0 references

    39°13'2.42"N, 9°6'53.68"E
    0 references

    40°38'24.22"N, 22°56'39.91"E
    0 references

    35°8'44.95"N, 33°24'37.62"E
    0 references

    34°41'12.19"N, 33°3'17.39"E
    0 references

    29°33'27.54"N, 34°57'10.15"E
    0 references

    31°15'41.15"N, 34°47'58.38"E
    0 references

    29°34'49.98"N, 34°57'46.87"E
    0 references
    The high energy consumption in the building sector, that is primarily fossil-fuel based, and the limited availability of the national electric grid in some remote or rural areas of the Mediterranean region call for new solutions that ensure stability and power quality of energy provision and higher penetration of renewable energy sources. In this context, BERLIN aims to implement cross-border pilot measures to support innovative and cost-effective energy rehabilitations in public buildings based on the nano-grid concept, the building block for smart micro-grids. The project will focus on increasing grid penetration, combined with energy storage and demand-side management, along with enhancement of energy efficiency in buildings. The goal is to reach high levels of self-resilience in public buildings and to make them greener, smarter, more innovative and sustainable. The project will implement 8 energy rehabilitation pilot actions which bring effectively together photovoltaic, energy storage, smart grid elements, home automation, etc. to achieve a self-sufficient nano-grid. (English)
    0 references

    Identifiers

    0 references