Sustainable and Integrated Energy Systems in Local Communities

Leistungen

Influence of micro RES installations (PV, Heat pump) and EVs on the local integrated low voltage community energy grid

D6.3 refers to task 6.3. The deliverable aims to report the local distribution grid impact study of integrating solar PVs, HPs and EVs. It also discusses the application of demand response, demand side management and local balancing schemes for local integrated energy systems at the pilot energy buildings and complexes. Verified by completing the technical assessment of the grid impact and application of demand-side participation of distributed energy resources in the local energy communities.

Categorization of types of consumers with tailored criteria for social acceptability

D3.5 refers to Task 3.4. The report presents different groups of consumers in local energy systems and identify their wishes and needs regarding their involvement in local integrated energy systems. It also describes the willingness of local consumers to accept community initiatives and installations and participate in demand-response schemes. Verified by successful analysis on criteria for citizen acceptability of local integrated energy system projects.

Technical measures to be taken in different neighbourhood/ buildings

D5.1 refers to Task 5.1. The deliverable deals with the identification of suitable energy system configurations and performance indicators for the various energy complexes, impact of smart grid control and preferences of various distributed assets to render flexibility and its influence on the electricity grid. Verified based on the potential of energy flexibility and smart-grid readiness of energy neighbourhood involved in the demonstration.

Techno-economic feasibility of a smart grid and local E-car concept

D5.2 refers to Task 5.2. The deliverable reports the techno-economic feasibility of a smart grid and local E-car concept. It also delivers the technical designs, conditions for implementation, business models and feasible cases for further renovation activities in the demonstration sites. Verified by successful investigation of system feasibility of smart energy systems in the energy neighbourhood sites.

Local demand response and control schemes for different demonstrators

D2.1 refers to Task 2.1. The aim of the deliverable is to describe local demand response and control schemes for different pilot sites that are enabled by data analysis and energy predictive algorithms. It is based on the use cases defined from the comprehensive cross-domain system architecture of multi-energy systems developed in WP2. Verified by meeting the design requirements of the system architecture and demand-side management schemes for local energy communities.

Technical, socio-economic-institutional schemes and applications for each of the 3 demo cases analysed in Przywidz

D6.2 refers to Task 6.3. The aim of the deliverable is to report the technical analyses, development of community-based energy cluster concept and application of energy block chain technologies and flexibility services for the various complexes targeted under the Przywidz municipality. Verified by the successful investigation of techno-socio-economic and institutional models applicable to the pilot sites.

Criteria for attractive citizen-centered business models

D3.4 refers to Task 3.3. The deliverable reports the description of the developed criteria for attractive and viable citizen-centered business models in terms of new societal models and organizations in local integrated energy systems. It also describes the local conditions and innovative models to activate citizen-centered local demand response and boosting local energy sources for energy communities. It is verified by successful development of criteria for business models that facilitates local energy markets and active market role for citizens and local communities in the different pilot sites.

Developed models and control schemes for heat pump and storage integration

D2.2 refers to Task 2.2. It aims to present the models and smart control schemes that can provide flexibility from electricity to heat systems for the optimised operation of the energy networks in the communities. It also reports techno-economic aggregation models developed for economic operation and promotion of high shares of local renewable energy in the local energy systems. Verified by successful development of models and control schemes for electricity to heat systems.

Obstacles that currently hinder the development and operation of local integrated energy systems

D3.1 refers to Task 3.1. The aim of the deliverable is to present the findings from the analyses of socio-economic, governance and regulatory obstacles that currently hamper the development and operation of energy communities. The impediments at the three demonstrator sites will be identified as well as general conclusions for the different countries and regions are taken into account. Verified based on identifying all relevant obstacles envisaged for the local energy communities.

Approaches for customer-centric local integrated community systems

D7.1 refers to task 7.1, 7.2 and 7.3. The deliverable reports the evaluation of level and stage of involvement from the end-users in the energy transition. Also, the analysis of the social acceptance and the role of end-users in development and operation in local energy systems are also presented in the report. Verified by the social impact assessment on the implementation of the pilot activities at the various sites.

Comprehensive analytic framework that covers all socio-economic criteria

D3.3 refers to Task 3.2. The deliverable presents a comprehensive analytic framework that covers all socio-economic criteria relevant for economically interesting citizen-centered local integrated energy systems. The deliverable is verifed based on mapping and meeting all requirements of the relevant socio-economic factors to implement multi-carrier energy communities.

Conditions for socio-economic development and citizen engagement in energy islands

D3.2 refers to Task 3.2. The aim of the deliverable is to describe the essential conditions for socio-economic development and citizen engagement in energy islands. Conditions for the participation of various energy stakeholders in the local community energy sites are emphasised. Verified based on clearly identifying the required states for motivating and involving participation of citizens in the pilot sites.

Developed models and control schemes for smart integration of energy carriers

D2.3 refers to Task 2.3, 2.4 and 2.5. The deliverable reports the models and control schemes to intelligently coordinate, schedule and integrate flexible multi-carrier components like EVs, HPs, EBs, waste-water pumping energy storages etc. in conjunction with the renewable generation units for the optimised operation and control of local integrated energy system. The technical impacts on the local distribution grids and economic operation of local energy systems are also presented in the report. Verified by implementation of suitable models and control algorithms to optimally integrate and operate multi-carrier flexible assets in local energy community systems

SERENE website & social media presence

D8.2 refers to Task 8.1. This deliverable aims to develop an attractive website that delivers visibility to the project, its activities reports, achievements and results that are not IP-sensitive, downloadable and non-confidential for public access. A protected area is also developed for consortium members for the internal use and unified access to all resources and documents produced in the project. The social media channels as presented in Table 2.5 are established for targeted audience, stakeholders and groups. The verification of the deliverable is applied through the indicators and measures presented in Table 2.4.

SERENE Press Release

D8.3 refers to Task 8.4. The aim of the deliverable is to highlight the most significant results from the commercialisation, replication and demonstration activities, to be circulated to stakeholders through appropriate online & print media. The verification of the deliverable is applied through the indicators and measures presented in Table 2.4.

Veröffentlichungen

Citizen Participation in Local Energy Transitions in Denmark, the Netherlands, and Poland

Autoren: Franziska Baack, Lisa Sanderink, Ewert Aukes, Frans Coenen, Athanasios Votsis, Florian Helfrich, Imad Ibrahim
Veröffentlicht in: the ECPR Joint Sessions Workshop on “Governance Innovations for Accelerated and Equitable Climate and Energy Transitions in Cities”, 2024
Herausgeber: N/A

Future local communities will supply their own green renewable energy.

Autoren: Birgitte Bak-Jensen, Aalborg University.
Veröffentlicht in: The Innovation Platform, Ausgabe Ausgabe 11, September 2022, 2022, Seite(n) p. 138-141
Herausgeber: The Innovation News Network

The Role of Collective Self-Consumption in the Promotion of BIPV in Multi-Apartment Building Façades

Autoren: R. Amaro e Silva, C. Gerçek, M. Centeno Brito, G.P. Luz
Veröffentlicht in: 38th European Photovoltaic Solar Energy Conference and Exhibition, Ausgabe Conference: 6-10th September 2021, 2022, Seite(n) 998 - 1001, ISBN 3-936338-78-7
Herausgeber: EU PVSEC
DOI: 10.4229/eupvsec20212021-5co.12.2

Multi-Objective Optimization Framework for Integration of Distributed Energy Resources in Smart Communities.

Autoren: Bahman Ahmadi, Department of EEMCS, University of Twente, Enschede, the Netherlands Aditya Pappu, Department of EEMCS, University of Twente, Enschede, the Netherlands Gerwin Hoogsteen, Department of EEMCS, University of Twente, Enschede, the Netherlands Johann L. Hurink, Department of EEMCS, University of Twente, Enschede, the Netherlands
Veröffentlicht in: 2022 57th International Universities Power Engineering Conference (UPEC), Ausgabe Date of Conference: 30 August 2022 - 02 September 2022, 2022, ISBN 978-1-6654-5505-3
Herausgeber: IEEE
DOI: 10.1109/upec55022.2022.9917732

Multi-objective Advanced Grey Wolf optimization Framework for Smart Charging Scheduling of EVs in Distribution Grids.

Autoren: Bahman Ahmadi, Department of EEMCS, University of Twente, Enschede, the Netherlands. Nataly Bañol Arias, Department of EEMCS, University of Twente, Enschede, the Netherlands. Gerwin Hoogsteen, Department of EEMCS, University of Twente, Enschede, the Netherlands. Johann L. Hurink, Department of EEMCS, University of Twente, Enschede, the Netherlands.
Veröffentlicht in: 2022 57th International Universities Power Engineering Conference (UPEC), Ausgabe Date of Conference: 30 August 2022 - 02 September 2022., 2022, ISSN 978-1-6654-5505-3978-1-6654-5506-0
Herausgeber: IEEE
DOI: 10.1109/upec55022.2022.9917961

A Decentralized Control Strategy for Voltage Regulators and Energy Storage Devices in Active Unbalanced Distribution Systems.

Autoren: Bahman Ahmadi, Department of EEMCS, University of Twente, Enschede, the Netherlands. Juan S. Giraldo, Department of EEMCS, University of Twente, Enschede, the Netherlands. Gerwin Hoogsteen, Department of EEMCS, University of Twente, Enschede, the Netherlands. Marco E. T. Gerards, Department of EEMCS, University of Twente, Enschede, the Netherlands. Johann L. Hurink, Department of EEMCS, University
Veröffentlicht in: 2022 International Conference on Smart Energy Systems and Technologies (SEST), Ausgabe Date of conference: 05-07 September 2022. Date Added to IEEE Xplore: 28 September 2022, 2022, ISBN 978-1-6654-0557-7
Herausgeber: IEEE
DOI: 10.1109/sest53650.2022.9898481

Optimal Allocation of Voltage Regulations to Maximize the Hosting Capacity of Distribution Systems

Autoren: Ahmadi, Bahman; Shirazi, Eli
Veröffentlicht in: 2023 IEEE 50th Photovoltaic Specialists Conference (PVSC), Ausgabe 1, 2023
Herausgeber: IEEE
DOI: 10.1109/pvsc48320.2023.10359634

An Optimization Framework for Distributed Energy Resource Planning and Energy Management Strategy of Storage Devices and Electric Vehicles

Autoren: Bahman Ahmadi, Oguzhan Ceylan, Aydogan Ozdemir
Veröffentlicht in: 2022 2nd International Conference on Energy Transition in the Mediterranean Area (SyNERGY MED), Ausgabe IEEE Xplore: 10 November 2022, 2022, ISBN 978-1-6654-6108-5
Herausgeber: IEEE
DOI: 10.1109/synergymed55767.2022.9941377

Modelling and validation of latent heat storage systems for demand response applications

Autoren: R. Sinha; P. Ponnaganti; B. Bak-Jensen; J. R. Pillai; C. Bojesen
Veröffentlicht in: 27th International Conference on Electricity Distribution (CIRED 2023), 2023, ISBN 978-1-83953-855-1
Herausgeber: IET
DOI: 10.1049/icp.2023.0657

On the Effects of Active Energy Community Participation in the Energy System

Autoren: Gerwin Hoogsteen, Dept. of EEMCS, University of Twente, Enschede, The Netherlands Aditya Pappu, Dept. of EEMCS, University of Twente, Enschede, The Netherlands Bahman Ahmadi, Dept. of EEMCS, University of Twente, Enschede, The Netherlands Johann L. Hurink, Dept. of EEMCS, University of Twente, Enschede, The Netherlands
Veröffentlicht in: 2022 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe), Ausgabe Date of Conference: 10-12 October 2022, 2022, ISBN 978-1-6654-8032-1
Herausgeber: IEEE
DOI: 10.1109/isgt-europe54678.2022.9960552

A Grid-Forming Converter with MVDC Supply and Integrated Step-Down Transformer: Modeling, Control Perspectives, and Control Hardware-in-the-Loop (C-HIL) Verification

Autoren: Saeed Golestan, Manuel Barrios, Hessam Golmohamadi, Florin Iov, Birgitte Bak-Jensen, Mohammad Monfared
Veröffentlicht in: Electronics, Ausgabe 13, 2024, Seite(n) 3143, ISSN 2079-9292
Herausgeber: Electronics
DOI: 10.3390/electronics13163143

A Heuristic-Driven Charging Strategy of Electric Vehicle for Grids with High EV Penetration

Autoren: Bahman Ahmadi, Elham Shirazi
Veröffentlicht in: Energies, Ausgabe 16, 2023, Seite(n) 6959, ISSN 1996-1073
Herausgeber: Multidisciplinary Digital Publishing Institute (MDPI)
DOI: 10.3390/en16196959

Flexibility provisions through local energy communities: A review

Autoren: Pavani Ponnaganti a 1, Rakesh Sinha a, Jayakrishnan R. Pillai a 2, Birgitte Bak-Jensen a 3
Veröffentlicht in: Flexibility provisions through local energy communities: A review, Ausgabe Volume 1, Ausgabe 2, June 2023, 100022, 2023, ISSN 2949-821X
Herausgeber: Next Energy
DOI: 10.1016/j.nxener.2023.100022

A multi-objective decentralized optimization for voltage regulators and energy storage devices in active distribution systems

Autoren: Bahman Ahmadi, Juan S. Giraldo, Gerwin Hoogsteen, Marco E.T. Gerards, Johann L. Hurink
Veröffentlicht in: International Journal of Electrical Power & Energy Systems, Ausgabe 153, 2023, Seite(n) 109330, ISSN 0142-0615
Herausgeber: Elsevier BV
DOI: 10.1016/j.ijepes.2023.109330

Leistungen

Veröffentlichungen

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