| Name | Project | Type | Compare |
|---|---|---|---|
| Romania, Alba Iulia PED | ASCEND – Accelerate poSitive Clean ENergy Districts | PED Case Study | Compare |
| Romania, Alba Iulia PED | InterPED – INTERoperable cloud-based solution for cross-vector planning and management of Positive Energy Districts | PED Case Study | Compare |
| Munich, Harthof district | PED Case Study | Compare | |
| Lublin | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Roubaix, MustBe0 – Résidence Philippe le Hardi – 125 Rue d’Oran | CULTURAL-E – Climate and cultural-based solutions for Plus Energy Buildings | PED Relevant Case Study | Compare |
| Bærum, Eiksveien 116 | CULTURAL-E – Climate and cultural-based solutions for Plus Energy Buildings | PED Relevant Case Study | Compare |
| Findhorn, the Park | InterPED – INTERoperable cloud-based solution for cross-vector planning and management of Positive Energy Districts | PED Case Study | Compare |
| Amsterdam, Buiksloterham PED | ATELIER – AmsTErdam BiLbao cItizen drivEn smaRt cities | PED Case Study | Compare |
| Schönbühel-Aggsbach, Schönbühel an der Donau | PED-ACT – Auto characterization of PEDs for digital references towards iterative process optimisation | PED Relevant Case Study | Compare |
| Umeå, Ålidhem district | PED-ACT – Auto characterization of PEDs for digital references towards iterative process optimisation | PED Case Study | Compare |
| Aalborg East | PED Relevant Case Study / PED Lab | Compare | |
| Ankara, Çamlık District | PED-ACT – Auto characterization of PEDs for digital references towards iterative process optimisation | PED Case Study / PED Relevant Case Study | Compare |
| Trenčín | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Luxembourg, Betzdorf | LEGOFIT – Adaptable technological solutions based on early design actions for the construction and renovation of Energy Positive Homes | PED Relevant Case Study | Compare |
| Vantaa, Aviapolis | NEUTRALPATH – Pathway towards Climate-Neutrality through low risky and fully replicable Positive Clean Energy Districts | PED Case Study / PED Relevant Case Study / PED Lab | Compare |
| Vidin, Himik and Bononia | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Oslo, Verksbyen | Syn.ikia – Sustainable Plus Energy Neighbourhoods | PED Case Study | Uncompare |
| Uden, Loopkantstraat | Syn.ikia – Sustainable Plus Energy Neighbourhoods | PED Relevant Case Study | Compare |
| Zaragoza, Actur | NEUTRALPATH – Pathway towards Climate-Neutrality through low risky and fully replicable Positive Clean Energy Districts | PED Relevant Case Study | Compare |
| Aarhus, Brabrand | BIPED – Building Intelligent Positive Energy Districts | PED Case Study / PED Relevant Case Study / PED Lab | Compare |
| Riga, Ķīpsala, RTU smart student city | ExPEDite – Enabling Positive Energy Districts through Digital Twins | PED Case Study | Compare |
| Izmir, District of Karşıyaka | PED-ACT – Auto characterization of PEDs for digital references towards iterative process optimisation | PED Case Study | Compare |
| Istanbul, Ozyegin University Campus | LEGOFIT – Adaptable technological solutions based on early design actions for the construction and renovation of Energy Positive Homes | PED Relevant Case Study | Compare |
| Espoo, Kera | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Case Study / PED Relevant Case Study | Compare |
| Borlänge, Rymdgatan’s Residential Portfolio | PED-ACT – Auto characterization of PEDs for digital references towards iterative process optimisation | PED Relevant Case Study | Uncompare |
| Freiburg, Waldsee | PED urban – Development of methods and tools for accounting, planning and operation of climate-neutral district | PED Case Study | Compare |
| Innsbruck, Campagne-Areal | PED Relevant Case Study | Compare | |
| Graz, Reininghausgründe | PED Case Study | Uncompare | |
| Stor-Elvdal, Campus Evenstad | ZEN – Research Centre on Zero Emission Neighbourhoods in Smart Cities | PED Relevant Case Study | Uncompare |
| Oulu, Kaukovainio | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Halmstad, Fyllinge | PED Relevant Case Study | Compare | |
| Lund, Brunnshög district | PED Case Study | Compare | |
| Vienna, Am Kempelenpark | PED Case Study | Compare | |
| Évora, Portugal | POCITYF – A POsitive Energy CITY Transformation Framework | PED Relevant Case Study / PED Lab | Compare |
| Kladno, Sletiště (Sport Area), PED Winter Stadium | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Relevant Case Study | Compare |
| Groningen, PED South | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Lab | Compare |
| Groningen, PED North | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Lab | |
| Maia, Sobreiro Social Housing | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Lab | Compare |
| Lubia (Soria), CEDER-CIEMAT | PED Lab | Compare | |
| Tampere, Ilokkaanpuisto district | STARDUST – Holistic and Integrated Urban Model for Smart Cities | PED Relevant Case Study | Compare |
| Leon, Former Sugar Factory district | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Istanbul, Kadikoy district, Caferaga | MAKING-CITY – Energy efficient pathway for the city transformation: enabling a positive future | PED Case Study | Compare |
| Espoo, Leppävaara district, Sello center | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Case Study | Compare |
| Espoo, Espoonlahti district, Lippulaiva block | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Case Study | Compare |
| Salzburg, Gneis district | Syn.ikia – Sustainable Plus Energy Neighbourhoods | PED Case Study | Compare |
| Barcelona, Santa Coloma de Gramenet | Syn.ikia – Sustainable Plus Energy Neighbourhoods | PED Case Study | Compare |
| Tartu, City centre area | SmartEnCity – Towards Smart Zero CO2 Cities across Europe | PED Relevant Case Study / PED Lab | Compare |
| Bologna, Pilastro-Roveri district | GRETA – GReen Energy Transition Actions | PED Relevant Case Study | Compare |
| Barcelona, SEILAB & Energy SmartLab | PED Lab | Compare | |
| Leipzig, Baumwollspinnerei district | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Case Study | Uncompare |
| Kifissia, Energy community | SPARCS – Sustainable energy Positive & zero cARbon CommunitieS | PED Relevant Case Study | Compare |
| Title | Groningen, PED North | Leipzig, Baumwollspinnerei district | Stor-Elvdal, Campus Evenstad | Borlänge, Rymdgatan’s Residential Portfolio | Graz, Reininghausgründe | Oslo, Verksbyen |
|---|---|---|---|---|---|---|
| A1P001: Name of the PED case study / PED Lab | ||||||
| A1P001: Name of the PED case study / PED Lab | Groningen, PED North | Leipzig, Baumwollspinnerei district | Stor-Elvdal, Campus Evenstad | Borlänge, Rymdgatan’s Residential Portfolio | Graz, Reininghausgründe | Oslo, Verksbyen |
| A1P002: Map / aerial view / photos / graphic details / leaflet | ||||||
| A1P002: Map / aerial view / photos / graphic details / leaflet |
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| A1P003: Categorisation of the PED site | ||||||
| PED case study | no | yes | no | no | yes | yes |
| PED relevant case study | no | no | yes | yes | no | no |
| PED Lab. | yes | no | no | no | no | no |
| A1P004: Targets of the PED case study / PED Lab | ||||||
| Climate neutrality | yes | yes | yes | yes | yes | yes |
| Annual energy surplus | yes | no | yes | yes | no | yes |
| Energy community | yes | no | no | yes | no | no |
| Circularity | yes | no | no | no | no | no |
| Air quality and urban comfort | no | yes | no | no | no | yes |
| Electrification | no | yes | no | yes | no | no |
| Net-zero energy cost | no | no | no | no | no | no |
| Net-zero emission | yes | no | no | no | no | yes |
| Self-sufficiency (energy autonomous) | no | no | no | no | no | no |
| Maximise self-sufficiency | no | no | no | yes | no | no |
| Other | no | yes | yes | no | no | no |
| Other (A1P004) | Net-zero emission; Annual energy surplus | Energy-flexibility | ||||
| A1P005: Phase of the PED case study / PED Lab | ||||||
| A1P005: Project Phase of your case study/PED Lab | Implementation Phase | Implementation Phase | In operation | Planning Phase | Implementation Phase | Implementation Phase |
| A1P006: Start Date | ||||||
| A1P006: Start date | 12/18 | 01/13 | 2019 | 07/18 | ||
| A1P007: End Date | ||||||
| A1P007: End date | 12/23 | 12/24 | 2025 | 08/24 | ||
| A1P008: Reference Project | ||||||
| A1P008: Reference Project | ||||||
| A1P009: Data availability | ||||||
| A1P009: Data availability |
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| A1P009: Other | ||||||
| A1P010: Sources | ||||||
| Any publication, link to website, deliverable referring to the PED/PED Lab |
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| A1P011: Geographic coordinates | ||||||
| X Coordinate (longitude): | 6.535121 | 12.318458 | 11.078770773531746 | 15.394495 | 15.407440 | 10.986173354432992 |
| Y Coordinate (latitude): | 53.234846 | 51.326492 | 61.42604420399112 | 60.486609 | 47.0607 | 59.22429716642046 |
| A1P012: Country | ||||||
| A1P012: Country | Netherlands | Germany | Norway | Sweden | Austria | Norway |
| A1P013: City | ||||||
| A1P013: City | Groningen | Leipzig | Evenstad, Stor-Elvdal municipality | Borlänge | Graz | Fredrikstad |
| A1P014: Climate Zone (Köppen Geiger classification) | ||||||
| A1P014: Climate Zone (Köppen Geiger classification). | Cfa | Dfb | Dwc | Dsb | Dfb | Cfb |
| A1P015: District boundary | ||||||
| A1P015: District boundary | Functional | Functional | Geographic | Geographic | Geographic | Geographic |
| Other | Geographic | |||||
| A1P016: Ownership of the case study/PED Lab | ||||||
| A1P016: Ownership of the case study/PED Lab: | Mixed | Public | Mixed | Mixed | Private | |
| A1P017: Ownership of the land / physical infrastructure | ||||||
| A1P017: Ownership of the land / physical infrastructure: | Multiple Owners | Single Owner | Single Owner | Multiple Owners | Single Owner | |
| A1P018: Number of buildings in PED | ||||||
| A1P018: Number of buildings in PED | 7 | 2 | 22 | 10 | 100 | 2 |
| A1P019: Conditioned space | ||||||
| A1P019: Conditioned space [m²] | 1.01 | 17000 | 10000 | 3700 | 3550 | |
| A1P020: Total ground area | ||||||
| A1P020: Total ground area [m²] | 17.132 | 30000 | 9945 | 1000000 | ||
| A1P021: Floor area ratio: Conditioned space / total ground area | ||||||
| A1P021: Floor area ratio: Conditioned space / total ground area | 0 | 1 | 0 | 0 | 0 | 0 |
| A1P022: Financial schemes | ||||||
| A1P022a: Financing - PRIVATE - Real estate | yes | no | no | no | yes | yes |
| A1P022a: Add the value in EUR if available [EUR] | ||||||
| A1P022b: Financing - PRIVATE - ESCO scheme | no | no | no | no | no | no |
| A1P022b: Add the value in EUR if available [EUR] | ||||||
| A1P022c: Financing - PRIVATE - Other | yes | no | no | no | no | no |
| A1P022c: Add the value in EUR if available [EUR] | ||||||
| A1P022d: Financing - PUBLIC - EU structural funding | no | no | no | no | no | no |
| A1P022d: Add the value in EUR if available [EUR] | ||||||
| A1P022e: Financing - PUBLIC - National funding | yes | no | yes | no | yes | no |
| A1P022e: Add the value in EUR if available [EUR] | ||||||
| A1P022f: Financing - PUBLIC - Regional funding | no | no | no | no | no | no |
| A1P022f: Add the value in EUR if available [EUR] | ||||||
| A1P022g: Financing - PUBLIC - Municipal funding | yes | no | no | no | yes | no |
| A1P022g: Add the value in EUR if available [EUR] | ||||||
| A1P022h: Financing - PUBLIC - Other | no | no | no | no | no | no |
| A1P022h: Add the value in EUR if available [EUR] | ||||||
| A1P022i: Financing - RESEARCH FUNDING - EU | yes | no | no | no | no | no |
| A1P022i: Add the value in EUR if available [EUR] | ||||||
| A1P022j: Financing - RESEARCH FUNDING - National | no | no | yes | no | no | no |
| A1P022j: Add the value in EUR if available [EUR] | ||||||
| A1P022k: Financing - RESEARCH FUNDING - Local/regional | no | no | no | no | no | no |
| A1P022k: Add the value in EUR if available [EUR] | ||||||
| A1P022l: Financing - RESEARCH FUNDING - Other | no | no | no | no | no | no |
| A1P022l: Add the value in EUR if available [EUR] | ||||||
| A1P022: Other | ||||||
| A1P023: Economic Targets | ||||||
| A1P023: Economic Targets |
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| A1P023: Other | Sustainable and replicable business models regarding renewable energy systems | |||||
| A1P024: More comments: | ||||||
| A1P024: More comments: | The “Reininghausgründe” are a new quarter near the centre of the City of Graz. In the area of a former brewery, close to more, still working industries, a new town centre is being established. It will include living areas, workplaces, shops, schools and a park, so that the need for individual mobility is minimized. It is connected to the city centre by bike paths, busses and a tram. Car sharing is provided as well. Some key-energy aspects: • characteristic 1: For the heat supply in the innovative Reininghaus energy model, low-temperature waste heat from a nearby steel plant is harnessed through the use of heat pumps. • characteristic 2: The district heating system operates at low temperatures. • characteristic 3: Generated heat that is not used immediately is stored in the power tower and supplied on demand. Other important aspects of the project are the following: • characteristic 1: Most houses are low-energy houses, some of the certified with the “Klima Aktiv” label • characteristic 2: There are extremely few parking possibilities for residents and visitors; this will foster the use of public transport and bikes • characteristic 3: All the necessary infrastructure for the “daily need” can be reached within walking distance The area of the project is going to be very “green” when finished. Featuring a big district parc, lots of other green spaces are in planning. | The total development consists of more than 1500 dwellings, a kindergarten, a school, and commercial buildings. Two of the residential blocks are included as demonstration projects in syn.ikia. The two blocks have 20 dwellings in each and are 6 stories high. | ||||
| A1P025: Estimated PED case study / PED LAB costs | ||||||
| A1P025: Estimated PED case study / PED LAB costs [mil. EUR] | ||||||
| Contact person for general enquiries | ||||||
| A1P026: Name | Jasper Tonen, Elisabeth Koops | Simon Baum | Åse Lekang Sørensen | Jingchun Shen | Katharina Schwarz | Tonje Healey Trulsrud |
| A1P027: Organization | Municipality of Groningen | CENERO Energy GmbH | SINTEF / The Research Centre on Zero Emission Neighbourhoods (ZEN) in Smart Cities | Högskolan Dalarna | StadtLABOR, Innovationen für urbane Lebensqualität GmbH | Norwegian University of Science and technology (NTNU) |
| A1P028: Affiliation | Municipality / Public Bodies | Other | Research Center / University | Research Center / University | SME / Industry | Research Center / University |
| A1P028: Other | CENERO Energy GmbH | |||||
| A1P029: Email | Jasper.tonen@groningen.nl | sib@cenero.de | ase.sorensen@sintef.no | jih@du.se | katharina.schwarz@stadtlaborgraz.at | tonje.h.trulsrud@ntnu.no |
| Contact person for other special topics | ||||||
| A1P030: Name | Simon Baum | Xingxing Zhang | Hans Schnitzer | |||
| A1P031: Email | sib@cenero.de | xza@du.se | hans.schnitzer@stadtlaborgraz.at | |||
| Pursuant to the General Data Protection Regulation | Yes | Yes | Yes | Yes | Yes | |
| A2P001: Fields of application | ||||||
| A2P001: Fields of application |
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| A2P001: Other | Urban Management; Air Quality | |||||
| A2P002: Tools/strategies/methods applied for each of the above-selected fields | ||||||
| A2P002: Tools/strategies/methods applied for each of the above-selected fields | Energy efficiency: - buildings energy retrofit supported by tax bonuses - replacing heat supply technologies Energy production: - installation of new (PV) systems for renewable on-site energy production; - presence of a large PV plant in the South East (2 solar parks: 12MW and 107MW) and North area (0,4 MW) Energy flexibility: - energy storage solutions, battery storage and possible hydrogen production - GRID balancing services E-mobility - Installation of new charging stations for electric vehicles; Urban Management - make use of the organizational structure Waste Management - circular use of municipal waste streams | Campus Evenstad is a small department at Inland Norway University of Applied Sciences, with 220 students. The vision for Campus Evenstad is an energy-flexible Campus Evenstad in an emission-free Europe. The area consists of approx. 20 buildings managed and owned by Statsbygg; the Norwegian government’s building commissioner, property manager and developer. The oldest building is from the 1700-century and the newest is the administration centre (2017) which is a Zero Emission Building (ZEB) with the highest ambitions (ZEB-COM). Their concept has been to realize Campus Evenstad as an energy pilot, where innovative energy solutions are demonstrated, showing how local areas can become more self-sufficient in energy. The energy system at Evenstad consists of several innovative energy solutions that are new in a Norwegian and European context. They are combined in local infrastructure for electricity and heat, which has led to new knowledge and learning about how the solutions work together, and how the interaction is between the local and the national energy system. The solutions consist of solar cells (PV), solar collectors, combined heat and power plant (CHP) based on wood chips, biofuel boiler, electric boiler, grid connection, district heating, heat storage, stationary battery and bidirectional electric vehicle (EV) charging (V2G). Statsbygg has gained a lot of operational experience from Campus Evenstad - both from individual technologies and from the interaction between these, which benefits Statsbygg's 2,200 buildings and 3 million m2 around Norway. Sharing of experiences is central. Campus Evenstad is a pilot in the Research Centre on Zero Emission Neighbourhoods (ZEN) in Smart Cities were several of the solutions has been developed and studied. | Load calculation and system optimisation: City Energy Analyst Identification of stranded assets for asset owners and investors to understand the carbon risks: CRREM | Energy efficiency: o Several activities: Workshops, Webinars to deepen the knowledge and raise awareness renewable energies o for example rooftop Photovoltaics green & blue infrastructures o Parks, Rooftop Gardens, Quarter Parks, Water elements included in the parks rooftop farming o To produce vegetables in the quarter stormwater management mobility o less parking and less cars in the district. Solutions for boosting public transport with sponsored public transport tickets; building of better bike and pedestrian infrastructure social aspects o district management was established in the district local supply of goods of daily need o Schools within 15 minutes walking distance Supermarkets and other shops within the district | Energy efficiency: energy-efficient buildings that comply with the Norwegian Passive House standard. Energy Flexibility: sharing of PV energy between the dwellings Energy production: BIPV on the roof and facades, and a ground source heat pump for thermal energy. E-mobility: EV charging Urban comfort: a large green park in the neighbourhood with a small lake and recreational areas Digital technologies: Smart Home Systems for lighting, heating and ventilation Indoor air quality: balanced ventilation | |
| A2P003: Application of ISO52000 | ||||||
| A2P003: Application of ISO52000 | No | No | No | No | Yes | |
| A2P004: Appliances included in the calculation of the energy balance | ||||||
| A2P004: Appliances included in the calculation of the energy balance | No | Yes | Yes | Yes | No | |
| A2P005: Mobility included in the calculation of the energy balance | ||||||
| A2P005: Mobility included in the calculation of the energy balance | No | Yes | No | Yes | No | |
| A2P006: Description of how mobility is included (or not included) in the calculation | ||||||
| A2P006: Description of how mobility is included (or not included) in the calculation | Mobility, till now, is not included in the energy model. | At Campus Evenstad there is infrastructure for EV charging and bidirectional charging (V2G). EV charging is included in the energy balance. | - Number of cars per household - Fraction of electric cars - Number of public transport tickets (week/ annual tickets) | |||
| A2P007: Annual energy demand in buildings / Thermal demand | ||||||
| A2P007: Annual energy demand in buildings / Thermal demand [GWh/annum] | 2.3 | 1.65 | 0.77 | 0.6777 | 0.16 | |
| A2P008: Annual energy demand in buildings / Electric Demand | ||||||
| A2P008: Annual energy demand in buildings / Electric Demand [GWh/annum] | 0.33 | 0.76 | 0.03656 | 0.053 | ||
| A2P009: Annual energy demand for e-mobility | ||||||
| A2P009: Annual energy demand for e-mobility [GWh/annum] | 0 | 0 | ||||
| A2P010: Annual energy demand for urban infrastructure | ||||||
| A2P010: Annual energy demand for urban infrastructure [GWh/annum] | 0 | |||||
| A2P011: Annual renewable electricity production on-site during target year | ||||||
| A2P011: PV | no | yes | yes | no | yes | yes |
| A2P011: PV - specify production in GWh/annum [GWh/annum] | 0.065 | 0.18 | ||||
| A2P011: Wind | no | no | no | no | no | no |
| A2P011: Wind - specify production in GWh/annum [GWh/annum] | ||||||
| A2P011: Hydro | no | no | no | no | no | no |
| A2P011: Hydro - specify production in GWh/annum [GWh/annum] | ||||||
| A2P011: Biomass_el | no | no | yes | no | no | no |
| A2P011: Biomass_el - specify production in GWh/annum [GWh/annum] | 0.050 | |||||
| A2P011: Biomass_peat_el | no | no | no | no | no | no |
| A2P011: Biomass_peat_el - specify production in GWh/annum [GWh/annum] | ||||||
| A2P011: PVT_el | no | no | no | yes | no | no |
| A2P011: PVT_el - specify production in GWh/annum [GWh/annum] | 0.01818 | |||||
| A2P011: Other | no | no | no | no | no | no |
| A2P011: Other - specify production in GWh/annum [GWh/annum] | ||||||
| A2P012: Annual renewable thermal production on-site during target year | ||||||
| A2P012: Geothermal | yes | no | no | no | yes | no |
| A2P012 - Geothermal: Please specify production in GWh/annum [GWh/annum] | ||||||
| A2P012: Solar Thermal | yes | no | yes | no | yes | no |
| A2P012 - Solar Thermal: Please specify production in GWh/annum [GWh/annum] | 0.045 | |||||
| A2P012: Biomass_heat | yes | no | yes | no | no | no |
| A2P012 - Biomass_heat: Please specify production in GWh/annum [GWh/annum] | 0.1 | 0.35 | ||||
| A2P012: Waste heat+HP | yes | no | no | no | yes | no |
| A2P012 - Waste heat+HP: Please specify production in GWh/annum [GWh/annum] | ||||||
| A2P012: Biomass_peat_heat | no | no | no | no | no | no |
| A2P012 - Biomass_peat_heat: Please specify production in GWh/annum [GWh/annum] | ||||||
| A2P012: PVT_th | yes | no | no | yes | no | no |
| A2P012 - PVT_th: Please specify production in GWh/annum [GWh/annum] | 0.0825 | |||||
| A2P012: Biomass_firewood_th | no | no | no | no | no | no |
| A2P012 - Biomass_firewood_th: Please specify production in GWh/annum [GWh/annum] | ||||||
| A2P012: Other | no | no | no | no | no | no |
| A2P012 - Other: Please specify production in GWh/annum [GWh/annum] | ||||||
| A2P013: Renewable resources on-site - Additional notes | ||||||
| A2P013: Renewable resources on-site - Additional notes | Geothermal heatpump systems, Waste heat from data centers | Listed values are measurements from 2018. Renewable energy share is increasing. | Groundwater (used for heat pumps) | |||
| A2P014: Annual energy use | ||||||
| A2P014: Annual energy use [GWh/annum] | 2.421 | 1.500 | 0.318 | |||
| A2P015: Annual energy delivered | ||||||
| A2P015: Annual energy delivered [GWh/annum] | 1 | 0.2055 | ||||
| A2P016: Annual non-renewable electricity production on-site during target year | ||||||
| A2P016: Annual non-renewable electricity production on-site during target year [GWh/annum] | 0 | |||||
| A2P017: Annual non-renewable thermal production on-site during target year | ||||||
| A2P017: Gas | no | no | no | no | no | no |
| A2P017 - Gas: Annual non-renewable thermal production on-site during target year [GWh/annum] | ||||||
| A2P017: Coal | no | no | no | no | no | no |
| A2P017 - Coal: Annual non-renewable thermal production on-site during target year [GWh/annum] | ||||||
| A2P017: Oil | no | no | no | no | no | no |
| A2P017 - Oil: Annual non-renewable thermal production on-site during target year [GWh/annum] | ||||||
| A2P017: Other | no | no | no | yes | no | no |
| A2P017 - Other: Annual non-renewable thermal production on-site during target year [GWh/annum] | 0 | |||||
| A2P018: Annual renewable electricity imports from outside the boundary during target year | ||||||
| A2P018: PV | no | no | no | no | yes | no |
| A2P018 - PV: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: Wind | no | no | no | no | yes | no |
| A2P018 - Wind: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: Hydro | no | no | no | no | yes | no |
| A2P018 - Hydro: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: Biomass_el | no | no | no | no | no | no |
| A2P018 - Biomass_el: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: Biomass_peat_el | no | no | no | no | no | no |
| A2P018 - Biomass_peat_el: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: PVT_el | no | no | no | no | no | no |
| A2P018 - PVT_el: specify production in GWh/annum if available [GWh/annum] | ||||||
| A2P018: Other | no | no | no | yes | no | no |
| A2P018 - Other: specify production in GWh/annum if available [GWh/annum] | 0.187 | |||||
| A2P019: Annual renewable thermal imports from outside the boundary during target year | ||||||
| A2P019: Geothermal | no | no | no | no | no | no |
| A2P019 Geothermal: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Solar Thermal | no | no | no | no | yes | no |
| A2P019 Solar Thermal: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Biomass_heat | no | no | no | no | yes | no |
| A2P019 Biomass_heat: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Waste heat+HP | no | no | no | no | yes | no |
| A2P019 Waste heat+HP: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Biomass_peat_heat | no | no | no | no | no | no |
| A2P019 Biomass_peat_heat: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: PVT_th | no | no | no | no | no | no |
| A2P019 PVT_th: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Biomass_firewood_th | no | no | no | no | no | no |
| A2P019 Biomass_firewood_th: Please specify imports in GWh/annum [GWh/annum] | ||||||
| A2P019: Other | no | no | no | yes | no | no |
| A2P019 Other: Please specify imports in GWh/annum [GWh/annum] | 0 | |||||
| A2P020: Share of RES on-site / RES outside the boundary | ||||||
| A2P020: Share of RES on-site / RES outside the boundary | 0 | 0 | 0 | 0.53839572192513 | 0 | 0 |
| A2P021: GHG-balance calculated for the PED | ||||||
| A2P021: GHG-balance calculated for the PED [tCO2/annum] | 6.93 | 0.036 | -6.035 | |||
| A2P022: KPIs related to the PED case study / PED Lab | ||||||
| A2P022: Safety & Security | none | Personal Safety | ||||
| A2P022: Health | thermal comfort diagram | Healthy community + Indoor Evironmental Quality (indoor air quality, thermal comfort, lighting and visual comfort) | ||||
| A2P022: Education | none | |||||
| A2P022: Mobility | none | x | Sustainable mobility | |||
| A2P022: Energy | apply | normalized CO2/GHG & Energy intensity | x | Energy and environmental performance (non-renewable primary energy balance, renewable energy ratio, grid purchase factor, load cover factor/self-generation, supply cover factor/ self-consumption, net energy/net power. peak delivered(peak exported power, connection capacity credit, total greenhouse gas emissions | ||
| A2P022: Water | x | |||||
| A2P022: Economic development | cost of excess emissions | x | Economic Performance: capital costs, operational costs, overall performance | |||
| A2P022: Housing and Community | x | demopraphic composiiton, diverse community, social cohesion access to amenities, access to services, afordability of energy, affordability of shousing, living conditions, universal design, energy consciousness | ||||
| A2P022: Waste | ||||||
| A2P022: Other | Smartness and Flexibility | |||||
| A2P023: Technological Solutions / Innovations - Energy Generation | ||||||
| A2P023: Photovoltaics | yes | no | yes | yes | yes | yes |
| A2P023: Solar thermal collectors | yes | no | yes | yes | no | no |
| A2P023: Wind Turbines | no | no | no | no | no | no |
| A2P023: Geothermal energy system | yes | no | no | yes | no | yes |
| A2P023: Waste heat recovery | yes | no | no | yes | yes | no |
| A2P023: Waste to energy | yes | no | no | no | no | no |
| A2P023: Polygeneration | no | no | no | no | no | no |
| A2P023: Co-generation | no | no | yes | no | no | no |
| A2P023: Heat Pump | yes | no | no | yes | yes | yes |
| A2P023: Hydrogen | no | no | no | no | no | no |
| A2P023: Hydropower plant | no | no | no | no | no | no |
| A2P023: Biomass | no | no | yes | no | no | no |
| A2P023: Biogas | no | no | no | no | no | no |
| A2P023: Other | The Co-generation is biomass based. | |||||
| A2P024: Technological Solutions / Innovations - Energy Flexibility | ||||||
| A2P024: A2P024: Information and Communication Technologies (ICT) | yes | no | yes | yes | yes | yes |
| A2P024: Energy management system | yes | no | yes | no | no | yes |
| A2P024: Demand-side management | yes | no | yes | no | no | yes |
| A2P024: Smart electricity grid | no | no | no | no | no | no |
| A2P024: Thermal Storage | yes | no | yes | yes | yes | no |
| A2P024: Electric Storage | yes | no | yes | no | no | no |
| A2P024: District Heating and Cooling | yes | no | yes | yes | yes | no |
| A2P024: Smart metering and demand-responsive control systems | yes | no | yes | no | no | yes |
| A2P024: P2P – buildings | no | no | no | no | no | no |
| A2P024: Other | Bidirectional electric vehicle (EV) charging (V2G) | |||||
| A2P025: Technological Solutions / Innovations - Energy Efficiency | ||||||
| A2P025: Deep Retrofitting | no | no | no | yes | no | no |
| A2P025: Energy efficiency measures in historic buildings | yes | no | no | no | no | no |
| A2P025: High-performance new buildings | yes | no | yes | no | yes | yes |
| A2P025: Smart Public infrastructure (e.g. smart lighting) | yes | no | no | no | yes | no |
| A2P025: Urban data platforms | yes | no | no | no | no | no |
| A2P025: Mobile applications for citizens | no | no | no | no | yes | no |
| A2P025: Building services (HVAC & Lighting) | no | no | no | yes | no | yes |
| A2P025: Smart irrigation | no | no | no | no | yes | no |
| A2P025: Digital tracking for waste disposal | no | no | no | no | no | no |
| A2P025: Smart surveillance | no | no | no | no | no | no |
| A2P025: Other | ||||||
| A2P026: Technological Solutions / Innovations - Mobility | ||||||
| A2P026: Efficiency of vehicles (public and/or private) | no | no | no | no | yes | no |
| A2P026: Measures to reduce traffic volume (e.g. measure to support public transportation, shared mobility, measure to reduce journeys and distances) | no | no | no | no | yes | no |
| A2P026: e-Mobility | yes | no | yes | no | yes | no |
| A2P026: Soft mobility infrastructures and last mile solutions | no | no | no | no | yes | no |
| A2P026: Car-free area | no | no | no | no | yes | no |
| A2P026: Other | ||||||
| A2P027: Mobility strategies - Additional notes | ||||||
| A2P027: Mobility strategies - Additional notes | Test-Concept for bidirectional charging. | - Multimodal mobility nodes - Support of public transport tickets - Mobility consulting - District management | ||||
| A2P028: Energy efficiency certificates | ||||||
| A2P028: Energy efficiency certificates | Yes | Yes | No | Yes | Yes | |
| A2P028: If yes, please specify and/or enter notes | Energy Performance Certificate | Passive house (2 buildings, 4 200 m2, from 2015) | Energieausweis mandatory if buildings/ flats/ apartments are sold | NS3700 Norwegian Passive House | ||
| A2P029: Any other building / district certificates | ||||||
| A2P029: Any other building / district certificates | Yes | No | Yes | |||
| A2P029: If yes, please specify and/or enter notes | Zero Emission Building (ZEB) with the highest ambitions (ZEB-COM) (admin building, 1 141 m2, 2016) | Klimaaktiv standard Voluntary! Certification can be for buildings and/or quarters. The different quarters are built in different standards. Ranging from bronze/silver/gold | ||||
| A3P001: Relevant city /national strategy | ||||||
| A3P001: Relevant city /national strategy |
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| A3P002: Quantitative targets included in the city / national strategy | ||||||
| A3P002: Quantitative targets included in the city / national strategy | The study aligns closely with the decarbonisation and energy reduction pathways of residential multi family buildings with 1.5°C global warming target in Sweden. This study will also contribute to the achievement of the carbon neturality of whole Borlänge city by 2030. | City level targets Klimaschutzplan Graz - 2022 | Targets: - Climate neutrality until 2040 - Social justice and high quality of life - High innovation levels Mobilitätsplan Graz 2040 – under development | Targets: - Modal Split 80:20 until 2040 80% Public transport, bike, walking | 20% cars Kommunales Energiekonzept (2017) | Targets: - Increase of district heating Energiemasterplan Graz (2018) | Targets: - Energy efficiency of urban dwellings and infrastructures - District heating and solar energy - Energy efficiency of private dwellings - Climate conscious mobility National level targets Klimaschutzplan Österreich -draft, expected by 2024 | Targets: - Decarbonisation (reduction of GHG, renewable energies, - Climate neutrality until 2040 - Energy efficiency - Security of energy supply | ||||
| A3P003: Strategies towards decarbonization of the gas grid | ||||||
| A3P003: Strategies towards decarbonization of the gas grid |
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| A3P003: Other | ||||||
| A3P004: Identification of needs and priorities | ||||||
| A3P004: Identification of needs and priorities | In our project, we carried out a comprehensive exploration of strategies to achieve positive energy districts in a Swedish residential portfolio. The focus on urban energy transitions necessitates a holistic approach that integrates building retrofit, solar technology exploration, and heating supply optimisation. Exploration of Local Solar Sources: The analysis reveals varying solar irradiance resources throughout the year, emphasizing the importance of strategic placement. Integration of combined photovoltaic and thermal panels into building envelopes demonstrates the potential to cover a significant portion of the energy demand even in Sweden. Heating Supply Optimisation with Solar Technologies: Despite the surplus energy production from on-site solar technology, challenges arise due to temporal energy asymmetry. The introduction of heat pumps emerges as a feasible solution to balance energy gaps, utilising both rejected and free heat. Optimisation scenarios, utilising a combination of geothermal heat pumps, water source heat pumps, and PVT, showcase remarkable reductions in emissions and primary energy consumption. Urban Form and Energy Infrastructure Design: We realised the importance of returning to urban form and energy infrastructure design to optimise future residential portfolio potential. Building layout design, influenced by zoning regulations and innovative typologies, plays a crucial role in achieving district level energy efficiency. Future challenges, including demographic shifts, e-mobility, and climate change, necessitate a more holistic approach to energy infrastructure design, addressing not only heating and electricity demands but also cooling requirements. | Reininghaus needs green spaces and places Sector coupling of water, waste water, electricity ICT and demand side management Mobility - Reininghaus needs better infrastructure for bikes and pedestrians - Public transportation should be more affordable and Sharing should be implemented in the district Infrastructure should cover daily needs within walking distance Infrastructure for local jobs and shared offices | ||||
| A3P005: Sustainable behaviour | ||||||
| A3P005: Sustainable behaviour | In Groningen we are working with different sustainable behaviours approaches and also developed the Unified Citizen Engagement Approach (UCEA). Currently, there are two different approaches in use in the municipality of Groningen: the District energy approach (Wijkgerichte aanpak, developed by the Municipality of Groningen) and the Cooperative approach (Coöperative Aanpak, developed by Grunneger Power). Based upon those approaches and knowledge that is gained through social research executed by TNO and HUAS the new Unified Citizen Engagement Approach (UCEA) has been developed. | While our investigation primarily centres on technical optimisation within Positive Energy District (PED) development, it is essential to acknowledge the broader scope encompassing social and governance dimensions. Specifically, understanding stakeholders' willingness to embrace technical recommendations upon project completion is important. Several potential influencing factors merit exploration, including economic considerations, technical optimisation-associated embodied carbon balance, the general public's technical perceptions, and operational feasibility. Evaluating these aspects holistically not only enhances the efficacy of PED initiatives but also fosters greater acceptance and participation within the communities they serve. | - citizen participation and promotion of functioning neighbourhoods (e.g., through city district management) As of today, solutions for the energy transition in the residential sector have focused on the construction of energy-efficient buildings and on the energy-efficient refurbishment of existing buildings. Measures to influence user behaviour and to directly address residents and neighbourhoods as actors of the energy transition play a minor role and are also not formalized. At the same time, moving into a new apartment offers a ‘window of opportunity’ to establish new everyday practices and behaviour. In already inhabited housing developments, well-functioning neighbourhoods or existing, ‘sustainability pioneers’ are key to motivating people to adopt more resource-efficient lifestyles. In order to prepare such agents of change towards more climate protection and sustainability in the context of housing, Austria launched the BAREWO project. The aim is to develop a kit of formats, methods, and interventions for resource-efficient housing. This toolkit will be tested in six testbeds, among which quarter 12 (Q12) of Graz- Reininghaus, as soon as first residents move in (approx. 2024). Austrian TRANS-PED partner StadtLABOR, which is also a partner in the BAREWO project, will support Q12 in this process. In parallel, a monitoring system will be developed to make the (climate) effects of the kit measurable. In addition, a guideline for property managers will be developed, which will serve as an orientation for them on how their residents can be coached in matters of climate protection and sustainability in everyday (residential) life. From the very beginning, (communication) measures are implemented and relevant stakeholders are involved in the project (project advisory board) to ensure the multiplicability, financing and broad application of the toolkit. If successful, the toolkit could also be scaled up to other quarters in Reininghaus. | |||
| A3P006: Economic strategies | ||||||
| A3P006: Economic strategies |
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| A3P006: Other | operational savings through efficiency measures | |||||
| A3P007: Social models | ||||||
| A3P007: Social models |
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| A3P007: Other | Campus Evenstad is a small department at Inland Norway University of Applied Sciences, with 220 students. Sharing knowledge is essential: Evenstad has regular visits from Politicians, decision-makers, researchers, environmental organizations, and energy- and building companies. | |||||
| A3P008: Integrated urban strategies | ||||||
| A3P008: Integrated urban strategies |
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| A3P008: Other | ||||||
| A3P009: Environmental strategies | ||||||
| A3P009: Environmental strategies |
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| A3P009: Other | Positive Energy Balance for the demo site | |||||
| A3P010: Legal / Regulatory aspects | ||||||
| A3P010: Legal / Regulatory aspects | At national/regional/local level a legislation on PEDs development is not yet available in the Netherlands. There will be a new Environmental Act and Heat Act in the nearby future. We are working on a paper about the current legal barriers, which are in short for Groningen: Lack of legal certainty and clarity with regard to the energy legislation. Lack of coherence between policy and legislation from different ministries. The planned revision of the Dutch Heat Law prevents Groningen from effectively realizing sustainable heat transition plans and goals. Lack of capacity on the distribution grid for electricity | Campus Evenstad became a prosumer in 2016, as the first with DSO Eidsiva. Evenstad is also one of the first three PV systems in Norway to receive green certificates. | Mobility contracts: A mobility contract is concluded between the City of Graz and the property developers in the course of development plans and serves to reduce the motor vehicle traffic to be expected as a result of the construction project. Push & pull measures are agreed: With a lower car parking space key, which is significantly lower than today's usual requirements, offers and information for easier use of public transport, walking and cycling, as well as car sharing and e-mobility are simultaneously created by the property developers, leading to a win-win-win situation for all parties involved. Basic principles - Possibility of combining effective "push & pull" measures => control option (e.g. reduction of car parking spaces, but optimisation of accessibility to public transport and walking and cycling networks, public transport tickets, mobility information, ... etc.) - Changing mobility behaviour in favour of sustainable forms of transport from the moment the flat is handed over ("upheaval" in personal mobility behaviour when changing the residential location) - Reduction in construction and maintenance costs (underground car parks, public road infrastructure) - Easier realisation of larger construction projects in the inner city area with lower generation of vehicle demand Städtebauliche Verträge in Graz / Urban development contracts in Graz Qualitative urban (neighbourhood) development with added value for all stakeholders: urban development contracts are modern instruments in the development of cities and neighbourhoods. As one of the pioneers in this field, the City of Graz also increasingly favours this form of quality assurance. Urban development contracts are a contractual form of regulation between the City of Graz and landowners, which enables flexible control of urban (sub)development in the interests of the common interests while at the same time relieving the public authorities. The contracts make property-related stipulations in accordance with urban planning requirements (e.g. urban development concept, development concept, framework plan, zoning plan) and the specialist planning requirements in particular infrastructure, development, design and mobility. This is intended to infrastructure, services of general interest, building land quality and settlement development required for the (parts of the) city. | |||
| B1P001: PED/PED relevant concept definition | ||||||
| B1P001: PED/PED relevant concept definition | The biggest impact is the demonstration of several new energy solutions for local communities. Statsbygg/Campus Evenstad contributes to the development of innovations, pushing technological development through purchasing and demonstration of the solutions. This is a benefit for both end users, energy service providers and society at large. Evenstad also contribute to developing the local business community. For example, local biomass chip production for CHP, development of V2G-software etc. Several key solutions have been important when aiming to achieve the goals of reduced emissions, increased self-sufficiency in energy, and an energy-flexible campus. Example Vehicle-to-grid (V2G): We realized bidirectional EV charging at Campus Evenstad in 2019, demonstrating V2G for the first time in Norway. The experiences from Evenstad provide increased knowledge and practical experience from purchasing, installing and operating the V2G solution, and can contribute to creating new solutions within the energy system. With the equipment installed, the batteries in EVs can supply power back to buildings or the power grid. Example solar cells (PV): We installed PV in 2013 when there were only a few grid-connected PV systems in Norway. The PV system was an important piece in changing the view on solar energy in Norway, where businesses, the public sector and private individuals started seeing the potential for solar energy also this far north. In 2022, the PV system was expanded with PV cells on the facade of the energy center. Example Solar collector system: Covers 100m2 of the roof surface of dormitories and supplies supplies 117 dormitories with all the hot water they need (4000m2 floor area. The solar collector system is connected to the district heating system, where the main heat source is bioenergy. Solar energy and bioenergy complement each other at different times of the year. Example battery bank: Among the 5 largest electrical batteries in Norway connected to the grid. Example CHP: First of its kind in Norway, generating heat and electricity from biomass. Already in 2010, fossil fuels were phased out by converting from oil to wood-chip heating. | The Rymdgatan's Residential Portfolio in Sweden presents a compelling case study for its classification as a PED-related research, given its alignment with sustainable behaviours and overarching PED development principles as follows: Inclusivity and Social Equity: The residential portfolio situated in Rymdgatan caters primarily to a low-income community. By focusing on this demographic, the project addresses critical aspects of social equity within sustainable urban development. Ensuring access to energy-efficient housing and amenities for economically disadvantaged populations not only fosters social cohesion but also mitigates energy poverty, a pressing concern in many urban contexts. Multifamily Residential Building: The inclusion of multifamily residential buildings within the portfolio underscores a commitment to density and efficient land use, both essential components of sustainable urban design. Such developments promote resource optimisation by consolidating housing units, thereby reducing per capita energy consumption and infrastructure demands. Moreover, multifamily dwellings often facilitate community engagement and shared resource management, fostering a culture of sustainability among residents. Low Carbon Retrofitting and Transition: The overarching initiative to transition the entire Jakobsgårdarna district. The included Rymdgatan portfolio, towards low carbon retrofitting, represents a significant example of decarbonization and climate resilience. By integrating energy-efficient technologies and renewable energy solutions into existing infrastructure, the project not only reduces carbon emissions but also serves as a blueprint for revitalising old urban environments sustainably. This holistic approach to retrofitting demonstrates a systemic commitment to environmental stewardship and long-term sustainability. Climate Adaptation and Renewable Energy Integration: Despite Sweden's climatic challenges, including lower solar resources during winter months, the Rymdgatan project leverages its geographical context to optimize renewable energy utilization. Sweden's greater solar resource availability during summer and geothermal potentials complement the design's emphasis on seasonal energy planning, where surplus energy generated during peak periods can be stored or redistributed efficiently. By embracing climate-responsive design strategies, the project demonstrates resilience in the face of climate variability while harnessing renewable energy potential effectively. | Reininghaus addresses some relevant key aspects listed in the JPI UE PED Framework Definition such as: - high level of aspiration in terms of energy efficiency, energy flexibility and energy production; - integration of different systems and infrastructures; - inclusion of aspects not only related to energy sector, but also connected with social, economic and environmental sustainability. | The case study follows the concept of syn.ikia with sustainable plus energy neighbourhoods (SPEN) and aims to reach a plus energy balance based on EPB uses on an annual basis. | ||
| B1P002: Motivation behind PED/PED relevant project development | ||||||
| B1P002: Motivation behind PED/PED relevant project development | In line with the EU's vision of "local energy communities", Campus Evenstad demonstrates energy actions that contribute to the clean energy transition. The campus has been developed over several years, demonstrating several innovative and sustainable technologies and energy solutions in a microgrid, e.g. vehicle to grid (V2G), biomass-based combined heat and power (CHP), solar energy, energy storage and zero emission buildings. It shows how to use new technology to enable zero emissions areas. Dedicated professionals, both Statsbygg's operating staff and researchers from FME ZEN have been central to the realization, together with dedicated management at the University campus, who have shown a great willingness to implement new solutions. | Borlänge city has committed to become the carbon-neutral city by 2030. | The Reininghausgründe is a new quarter near the centre of the City of Graz. On the area of a former brewery, close to more, still working industries, a new town centre is being established. The quarter will include living areas, workplaces, shops, schools and a park, so that the need for individual mobility is minimized. It is connected to the historical city centre by bike paths, busses and a tram. Car sharing is provided as well. | The developers call their concept for Future Living, where the neighbourhood consist of highly energy-efficient buildings, is supplied with renewable energy onsite and includes green areas for well-being. | ||
| B1P003: Environment of the case study area | ||||||
| B2P003: Environment of the case study area | Rural | Urban area | Urban area | Suburban area | ||
| B1P004: Type of district | ||||||
| B2P004: Type of district |
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| B1P005: Case Study Context | ||||||
| B1P005: Case Study Context |
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| B1P006: Year of construction | ||||||
| B1P006: Year of construction | 1990 | 2025 | ||||
| B1P007: District population before intervention - Residential | ||||||
| B1P007: District population before intervention - Residential | 100 | 0 | ||||
| B1P008: District population after intervention - Residential | ||||||
| B1P008: District population after intervention - Residential | 100 | 10000 | ||||
| B1P009: District population before intervention - Non-residential | ||||||
| B1P009: District population before intervention - Non-residential | 6 | 0 | ||||
| B1P010: District population after intervention - Non-residential | ||||||
| B1P010: District population after intervention - Non-residential | 6 | |||||
| B1P011: Population density before intervention | ||||||
| B1P011: Population density before intervention | 0 | 0 | 0 | 0 | 0 | 0 |
| B1P012: Population density after intervention | ||||||
| B1P012: Population density after intervention | 0 | 0 | 0 | 0.010658622423328 | 0.01 | 0 |
| B1P013: Building and Land Use before intervention | ||||||
| B1P013: Residential | no | no | no | yes | no | no |
| B1P013 - Residential: Specify the sqm [m²] | 4360 | |||||
| B1P013: Office | no | no | no | no | no | no |
| B1P013 - Office: Specify the sqm [m²] | ||||||
| B1P013: Industry and Utility | no | no | no | no | yes | yes |
| B1P013 - Industry and Utility: Specify the sqm [m²] | whole site was used for idustry and excavation | |||||
| B1P013: Commercial | no | no | no | no | no | no |
| B1P013 - Commercial: Specify the sqm [m²] | ||||||
| B1P013: Institutional | no | no | no | no | no | no |
| B1P013 - Institutional: Specify the sqm [m²] | ||||||
| B1P013: Natural areas | no | no | no | no | yes | no |
| B1P013 - Natural areas: Specify the sqm [m²] | ||||||
| B1P013: Recreational | no | no | no | no | no | no |
| B1P013 - Recreational: Specify the sqm [m²] | ||||||
| B1P013: Dismissed areas | no | no | no | no | no | no |
| B1P013 - Dismissed areas: Specify the sqm [m²] | ||||||
| B1P013: Other | no | no | no | yes | no | no |
| B1P013 - Other: Specify the sqm [m²] | 706 | |||||
| B1P014: Building and Land Use after intervention | ||||||
| B1P014: Residential | no | no | no | yes | yes | yes |
| B1P014 - Residential: Specify the sqm [m²] | 4360 | |||||
| B1P014: Office | no | no | no | no | yes | no |
| B1P014 - Office: Specify the sqm [m²] | ||||||
| B1P014: Industry and Utility | no | no | no | no | no | no |
| B1P014 - Industry and Utility: Specify the sqm [m²] | ||||||
| B1P014: Commercial | no | no | no | no | yes | no |
| B1P014 - Commercial: Specify the sqm [m²] | ||||||
| B1P014: Institutional | no | no | no | no | yes | no |
| B1P014 - Institutional: Specify the sqm [m²] | ||||||
| B1P014: Natural areas | no | no | no | no | yes | no |
| B1P014 - Natural areas: Specify the sqm [m²] | ||||||
| B1P014: Recreational | no | no | no | no | yes | no |
| B1P014 - Recreational: Specify the sqm [m²] | ||||||
| B1P014: Dismissed areas | no | no | no | no | no | no |
| B1P014 - Dismissed areas: Specify the sqm [m²] | ||||||
| B1P014: Other | no | no | no | yes | no | no |
| B1P014 - Other: Specify the sqm [m²] | 706 | |||||
| B2P001: PED Lab concept definition | ||||||
| B2P001: PED Lab concept definition | Groningen was selected as Lighthouse City for the MAKING-CITY project. MAKING-CITY is a 60-month Horizon 2020 project launched in December 2018. It aims to address and demonstrate the urban energy system transformation towards smart and low-carbon cities, based on the Positive Energy District (PED) concept. The PED operational models developed in MAKING-CITY will help European and other cities around the world to adopt a long-term City Vision 2050 for energy transition and sustainable urbanisation whilst turning citizens into actors of this transformation. Groningen works with two PED districts in two completely different neighbourhoods in terms of structure and buildings. This is why we see this as a lab: to see wat works and what doesn’t. In order to be able to implement this in the rest of the city. | |||||
| B2P002: Installation life time | ||||||
| B2P002: Installation life time | The MAKING-CITY project lasts from November 2018 – November 2023. By that time PED North and PED South East are a fact. | |||||
| B2P003: Scale of action | ||||||
| B2P003: Scale | District | |||||
| B2P004: Operator of the installation | ||||||
| B2P004: Operator of the installation | The Municipality of Groningen is Manager of the lab but works closely with other parties such as the university, university of applied sciences, research institute TNO and several other parties. | |||||
| B2P005: Replication framework: Applied strategy to reuse and recycling the materials | ||||||
| B2P005: Replication framework: Applied strategy to reuse and recycling the materials | Groningen does not have a strategy to reuse and recyle materials | |||||
| B2P006: Circular Economy Approach | ||||||
| B2P006: Do you apply any strategy to reuse and recycling the materials? | No | |||||
| B2P006: Other | ||||||
| B2P007: Motivation for developing the PED Lab | ||||||
| B2P007: Motivation for developing the PED Lab |
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| B2P007: Other | ||||||
| B2P008: Lead partner that manages the PED Lab | ||||||
| B2P008: Lead partner that manages the PED Lab | Municipality | |||||
| B2P008: Other | ||||||
| B2P009: Collaborative partners that participate in the PED Lab | ||||||
| B2P009: Collaborative partners that participate in the PED Lab |
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| B2P009: Other | research companies, monitoring company, ict company | |||||
| B2P010: Synergies between the fields of activities | ||||||
| B2P010: Synergies between the fields of activities | ||||||
| B2P011: Available facilities to test urban configurations in PED Lab | ||||||
| B2P011: Available facilities to test urban configurations in PED Lab |
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| B2P011: Other | ||||||
| B2P012: Incubation capacities of PED Lab | ||||||
| B2P012: Incubation capacities of PED Lab |
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| B2P013: Availability of the facilities for external people | ||||||
| B2P013: Availability of the facilities for external people | ||||||
| B2P014: Monitoring measures | ||||||
| B2P014: Monitoring measures |
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| B2P015: Key Performance indicators | ||||||
| B2P015: Key Performance indicators |
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| B2P016: Execution of operations | ||||||
| B2P016: Execution of operations | ||||||
| B2P017: Capacities | ||||||
| B2P017: Capacities | ||||||
| B2P018: Relations with stakeholders | ||||||
| B2P018: Relations with stakeholders | ||||||
| B2P019: Available tools | ||||||
| B2P019: Available tools |
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| B2P019: Available tools | ||||||
| B2P020: External accessibility | ||||||
| B2P020: External accessibility | ||||||
| C1P001: Unlocking Factors | ||||||
| C1P001: Recent technological improvements for on-site RES production | 3 - Moderately important | 5 - Very important | 4 - Important | 3 - Moderately important | 5 - Very important | |
| C1P001: Innovative, integrated, prefabricated packages for buildings envelope / Energy efficiency of building stock | 3 - Moderately important | 5 - Very important | 5 - Very important | 2 - Slightly important | 4 - Important | |
| C1P001: Energy Communities, P2P, Prosumers concepts | 4 - Important | 5 - Very important | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P001: Storage systems and E-mobility market penetration | 4 - Important | 5 - Very important | 3 - Moderately important | 2 - Slightly important | 1 - Unimportant | |
| C1P001: Decreasing costs of innovative materials | 5 - Very important | 3 - Moderately important | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P001: Financial mechanisms to reduce costs and maximize benefits | 5 - Very important | 1 - Unimportant | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P001: The ability to predict Multiple Benefits | 3 - Moderately important | 1 - Unimportant | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P001: The ability to predict the distribution of benefits and impacts | 3 - Moderately important | 1 - Unimportant | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P001: Citizens improved awareness and engagement on sustainable energy issues (bottom-up) | 5 - Very important | 4 - Important | 5 - Very important | 5 - Very important | 1 - Unimportant | |
| C1P001: Social acceptance (top-down) | 3 - Moderately important | 4 - Important | 5 - Very important | 4 - Important | 1 - Unimportant | |
| C1P001: Improved local and national policy frameworks (i.e. incentives, laws etc.) | 4 - Important | 4 - Important | 4 - Important | 5 - Very important | 1 - Unimportant | |
| C1P001: Presence of integrated urban strategies and plans | 3 - Moderately important | 1 - Unimportant | 5 - Very important | 5 - Very important | 1 - Unimportant | |
| C1P001: Multidisciplinary approaches available for systemic integration | 2 - Slightly important | 1 - Unimportant | 5 - Very important | 5 - Very important | 1 - Unimportant | |
| C1P001: Availability of grants (from EC or other donors) to finance the PED Lab projects | 3 - Moderately important | 1 - Unimportant | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P001: Availability of RES on site (Local RES) | 4 - Important | 5 - Very important | 5 - Very important | 3 - Moderately important | 5 - Very important | |
| C1P001: Ongoing or established collaboration on Public Private Partnership among key stakeholders | 3 - Moderately important | 3 - Moderately important | 2 - Slightly important | 5 - Very important | 1 - Unimportant | |
| C1P001: Any other UNLOCKING FACTORS | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P001: Any other UNLOCKING FACTORS (if any) | ||||||
| C1P002: Driving Factors | ||||||
| C1P002: Climate Change adaptation need | 2 - Slightly important | 3 - Moderately important | 5 - Very important | 5 - Very important | 1 - Unimportant | |
| C1P002: Climate Change mitigation need (local RES production and efficiency) | 3 - Moderately important | 5 - Very important | 5 - Very important | 5 - Very important | 5 - Very important | |
| C1P002: Rapid urbanization trend and need of urban expansions | 1 - Unimportant | 1 - Unimportant | 3 - Moderately important | 4 - Important | 5 - Very important | |
| C1P002: Urban re-development of existing built environment | 4 - Important | 1 - Unimportant | 4 - Important | 5 - Very important | 1 - Unimportant | |
| C1P002: Economic growth need | 2 - Slightly important | 1 - Unimportant | 4 - Important | 3 - Moderately important | 1 - Unimportant | |
| C1P002: Improved local environmental quality (air, noise, aesthetics, etc.) | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 5 - Very important | 4 - Important | |
| C1P002: Territorial and market attractiveness | 2 - Slightly important | 1 - Unimportant | 1 - Unimportant | 5 - Very important | 5 - Very important | |
| C1P002: Energy autonomy/independence | 2 - Slightly important | 4 - Important | 2 - Slightly important | 3 - Moderately important | 1 - Unimportant | |
| C1P002: Any other DRIVING FACTOR | 4 - Important | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P002: Any other DRIVING FACTOR (if any) | Earthquakes due to gas extraction | |||||
| C1P003: Administrative barriers | ||||||
| C1P003: Difficulty in the coordination of high number of partners and authorities | 3 - Moderately important | 1 - Unimportant | 4 - Important | 5 - Very important | 1 - Unimportant | |
| C1P003: Lack of good cooperation and acceptance among partners | 3 - Moderately important | 1 - Unimportant | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P003: Lack of public participation | 1 - Unimportant | 1 - Unimportant | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P003: Lack of institutions/mechanisms to disseminate information | 2 - Slightly important | 1 - Unimportant | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P003:Long and complex procedures for authorization of project activities | 4 - Important | 3 - Moderately important | 5 - Very important | 5 - Very important | 1 - Unimportant | |
| C1P003: Time consuming requirements by EC or other donors concerning reporting and accountancy | 4 - Important | 2 - Slightly important | 4 - Important | 3 - Moderately important | 1 - Unimportant | |
| C1P003: Complicated and non-comprehensive public procurement | 3 - Moderately important | 2 - Slightly important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P003: Fragmented and or complex ownership structure | 4 - Important | 3 - Moderately important | 4 - Important | 5 - Very important | 1 - Unimportant | |
| C1P003: City administration & cross-sectoral attitude/approaches (silos) | 5 - Very important | 1 - Unimportant | 5 - Very important | 4 - Important | 1 - Unimportant | |
| C1P003: Lack of internal capacities to support energy transition | 1 - Unimportant | 1 - Unimportant | 5 - Very important | 3 - Moderately important | 1 - Unimportant | |
| C1P003: Any other Administrative BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P003: Any other Administrative BARRIER (if any) | ||||||
| C1P004: Policy barriers | ||||||
| C1P004: Lack of long-term and consistent energy plans and policies | 1 - Unimportant | 3 - Moderately important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P004: Lacking or fragmented local political commitment and support on the long term | 1 - Unimportant | 3 - Moderately important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P004: Lack of Cooperation & support between national-regional-local entities | 2 - Slightly important | 3 - Moderately important | 4 - Important | 3 - Moderately important | 1 - Unimportant | |
| C1P004: Any other Political BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P004: Any other Political BARRIER (if any) | ||||||
| C1P005: Legal and Regulatory barriers | ||||||
| C1P005: Inadequate regulations for new technologies | 4 - Important | 5 - Very important | 4 - Important | 1 - Unimportant | 5 - Very important | |
| C1P005: Regulatory instability | 3 - Moderately important | 3 - Moderately important | 2 - Slightly important | 1 - Unimportant | 1 - Unimportant | |
| C1P005: Non-effective regulations | 3 - Moderately important | 3 - Moderately important | 2 - Slightly important | 3 - Moderately important | 5 - Very important | |
| C1P005: Unfavorable local regulations for innovative technologies | 3 - Moderately important | 3 - Moderately important | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P005: Building code and land-use planning hindering innovative technologies | 1 - Unimportant | 1 - Unimportant | 2 - Slightly important | 2 - Slightly important | 1 - Unimportant | |
| C1P005: Insufficient or insecure financial incentives | 3 - Moderately important | 4 - Important | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P005: Unresolved privacy concerns and limiting nature of privacy protection regulation | 2 - Slightly important | 1 - Unimportant | 2 - Slightly important | 2 - Slightly important | 1 - Unimportant | |
| C1P005: Shortage of proven and tested solutions and examples | 2 - Slightly important | 3 - Moderately important | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P005: Any other Legal and Regulatory BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P005: Any other Legal and Regulatory BARRIER (if any) | ||||||
| C1P006: Environmental barriers | ||||||
| C1P006: Environmental barriers | 2 - Slightly important | |||||
| C1P007: Technical barriers | ||||||
| C1P007: Lack of skilled and trained personnel | 4 - Important | 3 - Moderately important | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P007: Deficient planning | 2 - Slightly important | 1 - Unimportant | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P007: Retrofitting work in dwellings in occupied state | 2 - Slightly important | 3 - Moderately important | 4 - Important | 1 - Unimportant | 1 - Unimportant | |
| C1P007: Lack of well-defined process | 3 - Moderately important | 3 - Moderately important | 2 - Slightly important | 4 - Important | 1 - Unimportant | |
| C1P007: Inaccuracy in energy modelling and simulation | 4 - Important | 3 - Moderately important | 2 - Slightly important | 2 - Slightly important | 1 - Unimportant | |
| C1P007: Lack/cost of computational scalability | 1 - Unimportant | 5 - Very important | 3 - Moderately important | 2 - Slightly important | 1 - Unimportant | |
| C1P007: Grid congestion, grid instability | 4 - Important | 5 - Very important | 5 - Very important | 1 - Unimportant | 1 - Unimportant | |
| C1P007: Negative effects of project intervention on the natural environment | 1 - Unimportant | 1 - Unimportant | 2 - Slightly important | 2 - Slightly important | 1 - Unimportant | |
| C1P007: Energy retrofitting work in dense and/or historical urban environment | 3 - Moderately important | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P007: Difficult definition of system boundaries | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P007: Any other Thecnical BARRIER | 1 - Unimportant | 5 - Very important | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P007: Any other Thecnical BARRIER (if any) | Energy management systems of different new technologies does not "talk together" (e.g. solar inverter, V2G inverter). This creates challenges. | |||||
| C1P008: Social and Cultural barriers | ||||||
| C1P008: Inertia | 2 - Slightly important | 1 - Unimportant | 2 - Slightly important | 3 - Moderately important | 1 - Unimportant | |
| C1P008: Lack of values and interest in energy optimization measurements | 3 - Moderately important | 3 - Moderately important | 5 - Very important | 4 - Important | 1 - Unimportant | |
| C1P008: Low acceptance of new projects and technologies | 2 - Slightly important | 3 - Moderately important | 5 - Very important | 3 - Moderately important | 1 - Unimportant | |
| C1P008: Difficulty of finding and engaging relevant actors | 2 - Slightly important | 1 - Unimportant | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P008: Lack of trust beyond social network | 4 - Important | 1 - Unimportant | 5 - Very important | 3 - Moderately important | 1 - Unimportant | |
| C1P008: Rebound effect | 2 - Slightly important | 1 - Unimportant | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P008: Hostile or passive attitude towards environmentalism | 1 - Unimportant | 1 - Unimportant | 3 - Moderately important | 1 - Unimportant | 1 - Unimportant | |
| C1P008: Exclusion of socially disadvantaged groups | 5 - Very important | 1 - Unimportant | 3 - Moderately important | 1 - Unimportant | 1 - Unimportant | |
| C1P008: Non-energy issues are more important and urgent for actors | 4 - Important | 4 - Important | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P008: Hostile or passive attitude towards energy collaboration | 2 - Slightly important | 1 - Unimportant | 3 - Moderately important | 1 - Unimportant | 1 - Unimportant | |
| C1P008: Any other Social BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P008: Any other Social BARRIER (if any) | ||||||
| C1P009: Information and Awareness barriers | ||||||
| C1P009: Insufficient information on the part of potential users and consumers | 3 - Moderately important | 1 - Unimportant | 3 - Moderately important | 2 - Slightly important | 1 - Unimportant | |
| C1P009: Perception of interventions as complicated and expensive, with negative socio-economic or environmental impacts | 3 - Moderately important | 3 - Moderately important | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P009: Lack of awareness among authorities | 2 - Slightly important | 4 - Important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P009: Information asymmetry causing power asymmetry of established actors | 3 - Moderately important | 1 - Unimportant | 5 - Very important | 4 - Important | 1 - Unimportant | |
| C1P009: High costs of design, material, construction, and installation | 4 - Important | 5 - Very important | 5 - Very important | 4 - Important | 4 - Important | |
| C1P009: Any other Information and Awareness BARRIER | 1 - Unimportant | 5 - Very important | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P009: Any other Information and Awareness BARRIER (if any) | Different interests - Grid/energy stakeholders and building stakeholders | |||||
| C1P010: Financial barriers | ||||||
| C1P010: Hidden costs | 2 - Slightly important | 5 - Very important | 5 - Very important | 3 - Moderately important | 1 - Unimportant | |
| C1P010: Insufficient external financial support and funding for project activities | 3 - Moderately important | 5 - Very important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P010: Economic crisis | 1 - Unimportant | 1 - Unimportant | 5 - Very important | 4 - Important | 1 - Unimportant | |
| C1P010: Risk and uncertainty | 3 - Moderately important | 5 - Very important | 5 - Very important | 2 - Slightly important | 4 - Important | |
| C1P010: Lack of consolidated and tested business models | 3 - Moderately important | 5 - Very important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P010: Limited access to capital and cost disincentives | 2 - Slightly important | 4 - Important | 5 - Very important | 2 - Slightly important | 1 - Unimportant | |
| C1P010: Any other Financial BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P010: Any other Financial BARRIER (if any) | ||||||
| C1P011: Market barriers | ||||||
| C1P011: Split incentives | 5 - Very important | 1 - Unimportant | 4 - Important | 2 - Slightly important | 1 - Unimportant | |
| C1P011: Energy price distortion | 4 - Important | 1 - Unimportant | 4 - Important | 4 - Important | 1 - Unimportant | |
| C1P011: Energy market concentration, gatekeeper actors (DSOs) | 4 - Important | 1 - Unimportant | 3 - Moderately important | 4 - Important | 1 - Unimportant | |
| C1P011: Any other Market BARRIER | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | 1 - Unimportant | |
| C1P011: Any other Market BARRIER (if any) | ||||||
| C1P012: Stakeholders involved | ||||||
| C1P012: Government/Public Authorities |
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| C1P012: Research & Innovation |
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| C1P012: Financial/Funding |
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| C1P012: Analyst, ICT and Big Data |
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| C1P012: Business process management |
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| C1P012: Urban Services providers |
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| C1P012: Real Estate developers |
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| C1P012: Design/Construction companies |
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| C1P012: End‐users/Occupants/Energy Citizens |
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| C1P012: Social/Civil Society/NGOs |
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| C1P012: Industry/SME/eCommerce |
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| C1P012: Other |
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| C1P012: Other (if any) | ||||||
| Summary |
Authors (framework concept)
Beril Alpagut (Demir Energy); Giulia Turci (University of Bologna); Michal Kuzmic (Czech Technical University in Prague); Paolo Civiero (Università Roma Tre); Serena Pagliulia (University of Bologna); Oscar Seco (CIEMAT); Silvia Soutullo (CIEMAT); Daniele Vettorato (EURAC Research, IEA Annex 83); Bailador Ferreras M. Almudena (CIEMAT); Vicky Albert-Seifried (FHG ISE)
Contributors (to the content)
Laura Aelenei (LNEG), Nienke Maas (TNO), Savis Gohari (OsloMet), Andras Reith (ABUD), Ghazal Etminan (AIT), Maria-Beatrice Andreucci (Universita Sapienza), Francesco Reda (VTT, IEA Annex 83), Mari Hukkalainen (VTT), Judith-Borsboom (Locality), Gilda Massa (ENEA), Jelena Ziemele (University of Latvia), Nikola Pokorny (CVUT), Sergio Diaz de Garayo Balsategui (CENER, IEA Annex 83), Matthias Haaze (ZHAW, IEA Annex 83), Christoph Gollner (FFG, JPI UE), Silvia Bossi (ENEA, JPI UE), Christian Winzer (Zurich University of Applied Science), George Martinopoulos (Centre for Research and Technology Hellas), Maria Nuria Sánchez (CIEMAT), Angelina Tomova (Energy Agency of Plovdiv)
Implemented by
Boutik.pt: Filipe Martins, Jamal Khan
Marek Suchánek (Czech Technical University in Prague)
