Rezultaty
The deliverable will be focused on the observed barriers for Demand Response in the different member states
Quality Assurance PlanQuality Assurance Plan will include all relevant quality assurance procedures and structures These quality assurance procedures will be applied to all internal and externa results and Deliverables Quality assurance will be the joint responsibility of all project partners at all levels
System's architectureThis deliverable will develop an open secure and flexible customercentric architecture which will consider active buildings and cooperatives in condition of high renewables penetration increased electrical vehicles presence storage and DR For this one of the main tasks is to take as basis in a holistic concept the architectures already developed in H2020 projects such as NOBEL GRID or WiseGRID The architecture will be mapped on European SGAM framework This flexible architecture will consider also local neighbourhood transactions for energy delivery energy storage demand response and various energy services either aggregated
Pilot Quality assurance GuideA pilot Quality Assurance plan will be developed including all relevant quality assurance procedures and structures which must be followed throughout the pilot testing phase
Modules' InteroperabilityIn this deliverable the technical developers will design the specifications of the different modules assuring their interoperability based on web services and highperformance middleware specifications that will operate to collect data from the different energy infrastructure and distributed resources in the network and transfers them efficiently and securely through the different modules
General Pilot Management PlanGeneral Pilot Management Plan will include all information regarding pilot management local project manual for each one of the pilots efficient communication procedures economic management and reporting elaboration and inclusion of a Pilot Risk Management Plan
Business Models & Incentive Schema DefinitionIn this deliverable existing business models from the energy sector will be reviewed and new ones will be proposed considering market potential of the TwinERGY technologies the results of incentive mechanisms as well as the resulting interactions between the market players
Technical obstacles to innovation analysisThis deliverable will focus on the landscaping of the barriers hindering the successful penetration of demand response business models and schemes prioritizing on the demonstration countries and contexts
Project Mangement Plan -Revision 1First revision of the Project Management Plan
TwinERGY Common Information ModelThe deliverable consists in the high level domain model comprising the basic elements semantic concepts events relations and respective data models etc underlying the TwinERGY Project
Legal & Ethical Complience GuideThe deliverable will produce an inventory of the main applicable high level regulatory andethical requirements identified under T121
TwinERGY - European Projects Innovation and Cooperation roadmapThis deliverable will provide the plan on how to achieve the establishment of common approaches and participation to common discussion with other BRIDGE running projects to align strategies and activities of common interest
Project Management Handbookproject management report summarizing all the required knowledge for the good management of the project in terms of administrative forms financial aspects quality process etc
Consumers Behavioural AnalysisThe task deliverables will consist of a deep analysis of the drivers and inhibitors of consumer behaviour change we will develop a tailormade conceptual model to understand the drivers and to promote consumer engagement in an energy market
Best practice guidelines for engaging citizens in the pilots and metrics for diversity and inclusionWe will develop a framework for engaging citizens that includes guidelines around diversity and inclusion within the pilot projects and agreements re data governance principles best practice guidelines training materials and tools
Consumer Engagement planDeliver the engagement plan to explain processes and behavioural change related to engagement process and which will govern the whole projectby adopting the EC recommendations for customer engagement projects
Methodological FrameworkThe deliverable will outline a methodological framework to evaluate business analysis methods suitable to implement the sectorial analysis eg including Problem Structuring Methods Group Model Building Business Model Canvass etc This review will facilitate the selection of the most useful and effective methods for the purpose Selected methods will be combined with the outcomes from previous analyses conducted in other EU projects and with results coming by our pilots and trials
Project Management PlanThe deliverable will provide a detailed Project Management Plan with a Gantt chart and a Work Breakdown Structure WBS including a schedule per task responsible partner related subtasks related deliverables and dependencies on other tasks
Stakeholders analysis: KPIs, Scenarios and Use Case definitionThis task deliverables will be to perform the stakeholders analysis and to quantify the Key Performance Indicators KPIs to achieve the maximization of consumer engagement in an energy market This task will also deliver the UseCases UCs and scenarios development which will be the foundation for the pilot demonstrations
Communication and Dissemination PlanCommunication and Dissemination Plan documents activities across the lifetime of the project which all consortium partners contribute to The plan will ensure effective and inclusive dissemination across a diverse range of audiences
Data Use License templateThis task will develop data use licenses with citizens The approachwill be fully compliant with research ethics procedures informed consent andGDPR legislation and will offer a creative way for consumers and energyinfrastructure stakeholders to codevelop a use license for personal data inrelation to energy usage
The deliverable will update and extend D53 by enriching the initial functionality and introducing open APIs providing access to external legacy systems and to third parties in general to selected features of the platform
Consumer and Neighborhood demand flexibility profiling ModuleMethodology for calculating and profiling the potential flexibility at micro and macro level based both on physicsdriven and datadriven modelling and simulation
Transactive Energy ModuleIn this deliverable the integration of WECs transactive energy platform with the TwinERGY framework will be performed
Customer Deployment and Social Engagement ModuleThis deliverable will provide a social network platform employing a social competition strategy designed to encourage demand response engagement and reduction in energy usage
Data Collection, Security, Storage & Management Services Bundles - Beta ReleaseThe deliverable focuses on the rapid prototyping and beta release of the TwinERGY Platform data collection security storage governance and management services
TwinERGY Integrated Data Management Platform - Alpha, Mock-ups ReleaseThe deliverable will consist in the alpha version with limited functionality of the Integrated TwinERGY platform
Demand flexibility modelsEstimation of the available deployable flexibility and its exploitation and dispatch features on each combination of load and demand response service based on modelling physicsdriven or datadriven tools
Electric Mobility as a Service ModuleThis module will provide highvalue services to EV users such as minimum charging prices and maximum green electricity supply and different kind of grid services ETRA will design this tool in a modular manner and will integrate the module with the other ones taking into account their data exchanges need between them and the other tools of the project These developments will be based on web services and will follow an open approach providing a userfriendly interface The goal of this task is to develop a platform promoting eMaaS by supporting drivers finding the most suitable station to charge their EV while addressing issues of payment security and quality The suitability of the charging point will be specified based on factors such as dynamic pricing route cost to the station amount of the vehicles battery energy stock and energy that each provider can offer as well as arrival waitingcharging times The platform will also handle the booking parking process and payment utilizing smart contracts and blockchain technology The proposed solution combines cutting edge ICT blockchain and a userfriendly App for mobile devices in order to lead the way towards making emobility more accessible
Digital twin interconnected platformThe setup of the individual buildings and communities Digital Twins in the cloud including the backend and frontend interconnections with the field and edge devices the interfaces and incorporation of the energy services and the APIs for interconnection with the Transactive Energy Platform
Risk Management and event handling ModuleDelivery of the TwinERGY Risk Management and Event Handling Module Delivery of a Module handbook for the integration of the 2 submodules and of thee module within the platform
System dynamics modelsThe deliverable will explore Energy Systems modelling utilizing System Dynamics as a core technique Multiple stakeholders will be able to engage in a process of collaborative modelbuilding where causal loop mapping and stocks flows modelling will provide both the qualitative and quantitative means for developing rich insights into the future energy marketplace These models will be codified in TwinERGY platform so that real world scenarios can be built and insights into the impact of emerging technologies can be developed Alongside these exploration of interdependencies and the impact of unintended consequences will be explored through a collection of Viable System Models VSM and matrixbased tools such as N2 charts and the QFD approach the house of quality These enable the identification of scenarios where cascading effects of changes at localcomponent level may compromise the ability of the whole system to function and deliver as expected
RES integration and DER management ModuleDesign and development of a network forecast and control unit module by integrating realtime signals for flexible generators and loads to increase the share of distributed renewable energy
Customer digital twinDesign and development of CDT Customer Digital Twin which aims at the prediction and optimization of energy consumption based on massive cumulative realtime realworld data measurements across an array of dimensions
Home & Tertiary real-time Energy Monitoring ModuleDelivery of the TwinERGY Home Tertiary realtime Energy Monitoring Module and of the respective Web and Mobile application Delivery of a Module handbook for the user interfaces and for the module integration with other tools
Data Collection, Security, Storage & Management Services Bundles - Release 1.00The deliverable will consist in a more mature and feature-rich version of D5.2.
Delivery of the comfort wellbeing module comprising the development of the extended low cost long autonomy wearable wireless device to monitor and acquire physiological signals and extract the various vital signs after suitable processing such as heart rate breathing rate body temperature sweating index etc and transmit them wirelessly to the platform utilising low consumption communications protocols
TwinERGY connectors to distributed smart grid assets and respective APIsThe aim of T81 is to smooth and seamless integration of the TwinERGY solution with the wealth of the underlying components in a Smart Grid setup In this context and under this premise this task will develop a set of connectors wrappers that will ensure connectivity communication and information exchange and flows from distributed assets resources and systems eg RES inverters battery inverters EV chargers and building systems devices via gateways Such wrappers will be responsible for populating the TwinERGY Common Information Model with actual data for the different smart grid instances and components Moreover the developed wrappers and respective APIs will enable the ingestion of realtime data in motion and batch data data at rest to the TwinERGY Core Data Management Platform in a semantically interoperable manner through mapping between the distributed APIs described above to the Open API and CIM residing in the CDMP thus allowing data feeds to the upstream analytics engines and endusers applications offered by TwinERGY
A report which outlines how TwinERGY data will be handled both during the lifespan of the project and after covering all aspects of data management from metadata generation and data preservation as well as any claims to intellectual property rights
Publikacje
Autorzy:
Nikos Andriopoulos,Konstantinos Plakas,Christos Mountzouris,John Gialelis,Alexios Birbas,Stylianos Karatzas andAlex Papalexopoulos
Opublikowane w:
WEV Journal, Numer monthly, 2022, ISSN 2032-6653
Wydawca:
WEV
DOI:
10.3390/app13031798
Autorzy:
Davide Ottonello,Alessandro Fermi, Daniele Ravizza, Marco Barbagelata, Stylianos Karatzas ,Athanasios Chassiakos, andAntonis Papamanolis
Opublikowane w:
Buildings, Numer monthly, 2023, ISSN 2075-5309
Wydawca:
Buildings
DOI:
10.3390/buildings13020428
Autorzy:
Anastasios I. Karameros
University of Patras
Athanasios Chassiakos
University of Patras
Stylianos Karatzas
University of Cambridge
Opublikowane w:
Journal of Sustainable Development of Energy Water and Environment Systems, Numer monthly, 2022, ISSN 1848-9257
Wydawca:
Journal of Sustainable Development of Energy Water and Environment Systems
DOI:
10.13044/j.sdewes.d9.0413
Autorzy:
Anastasios Karameros, Athanasios Chassiakos, Stylianos Karatzas
Opublikowane w:
Journal of Sustainable Development of Energy, Water and Environment Systems, 2022, ISSN 1848-9257
Wydawca:
International Centre for Sustainable Development of Energy, Water and Environment Systems (SDEWES Centre)
Autorzy:
Stylianos Karatzas (University of Patras, Greece), Ath P. Chasiakos (University of Patras, Greece), Theo Tryfonas (University of Bristol, UK) and Anastasios Ioannis Karameros (University of Patras, Greece)
Opublikowane w:
International Journal of Digital Innovation in the Built Environment, 2021, ISSN 2642-2263
Wydawca:
IGI Global
Autorzy:
Alberto Zambrano Galbis
, Moisés Antón García
, Ana Isabel Martínez García
, Stylianos Karatzas
Athanasios Chassiakos,
, Vasiliki Lazari and Olympia Ageli
Opublikowane w:
World Electric Vehicle, Numer monthly, 2022, ISSN 2032-6653
Wydawca:
World Electric Vehicle Journal
DOI:
10.3390/wevj13080145
Autorzy:
John, Gialelis
University of Patras
gialelis@ece.upatras.gr
Maria, Krizea
University of Patras
mkrizea@ece.upatras.gr
Grigoris, Protopsaltis
University of Patras
greproto@gmail.com
Christos, Mountzouris
University of Patras
chrismountzou@gmail.com
Tasos, Kladas
University of Patras
up1079091@upatras.gr
Gerasimos, Theodorou
University of Patras
gtheodorou@upatras.gr
Stylianos, Karatzas
University o
Opublikowane w:
Conference: PETRA '22: The15th International Conference on PErvasive Technologies Related to Assistive Environments, Numer yearly, 2022
Wydawca:
Reserach Gate
DOI:
10.1145/3529190.3534747
Autorzy:
Christos Mountzouris
Christos Mountzouris
This person is not on ResearchGate, or hasn't claimed this research yet.
Stylianos Karatzas
University of Cambridge
Grigorios Protopsaltis
John Gialelis
University of Patras
Opublikowane w:
2023 European Conference on Computing in Construction 40th International CIB W78 Conference Heraklion, Crete, Greece, Numer yearly, 2023
Wydawca:
Reserach Gate
DOI:
10.35490/ec3.2023.312
Autorzy:
Catarina Neves, Tiago Oliveira
Universidade NOVA de Lisboa
Opublikowane w:
ECIS 2023, Numer yearly, 2023
Wydawca:
AIS e Library
Wyszukiwanie danych OpenAIRE...
Podczas wyszukiwania danych OpenAIRE wystąpił błąd
Brak wyników