Peer to Peer Smart Energy Distribution Networks (P2P-SmartTest)

Leistungen

Qualitative and quantitative models for a more resilience P2P operation of distribution networks

This deliverable will report the fault-error-failure models for the three coupled infrastructures (power, telecom, and control), qualitative and quantitative models for fault propagation, and solutions for less interdependent and more robust applications: fault tolerance and self-healing.

Quantify the benefits from introducing P2P energy exchange at the local, community and regional levels from the perspective of the stakeholders involved in P2P energy exchange

This deliverable will quantify the benefits of P2P energy exchange for the different stakeholders at different levels (local, community, regional levels)

Dissemination plan

This deliverable will report the expected dissemination activities within P2P-SmarTest project

Final Workshop

This deliverable will evaluate and disseminate the information on project activities and exploitation plans to its stakeholders, partly in cooperation with other LCE6-10 projects.

Report of Alternative business opportunities and business models for DSOs, Retailers, ESCOs, Service providers, Aggregators, and Consumers to facilitate P2P energy exchange
Key performance Indicators for P2P energy trading communications

This deliverable will provide initial KPIs for tasks T3.2 and T3.3 to use in benchmarking of feasibility.

Conclusions and recommendations

This deliverable will provide the conclusions and recommendation drawn from the tests performed during task 6.4.

P2P Energy Trading: Market design and optimization

This deliverable will provide innovative market arrangements and advanced optimization techniques for P2P energy trading

ICT solutions for P2P communication in smart grids

This deliverable will provide final ICT solutions for P2P energy trading networks.

Exploitation plan

This deliverable will evaluate and disseminate the information on project activities with respect to exploitation of the achieved results of P2P-SmarTest project

Midterm workshop

This deliverable will evaluate and disseminate the information on project activities and exploitation plans to its stakeholders, partly in cooperation with other LCE6-10 projects.

Device-to-device and hybrid sensor – telecom infrastructure specifications for smart energy grids

This deliverable will provide D2D and hybrid sensor network – telecommunications infrastructure specifications with interim results for P2P energy trading. The output will be fed back to WP2 for revision of business models and WP4 for technical model revision

Description of the implemented real test beds

This deliverable will provide a detailed description of the real test beds implemented in this work package

Report of Regulatory, Business, and Technological enablers, limiting factors/barriers and challenges of P2P energy transfer

This deliverable will analyse and report the regulatory, business, and technological factors – classified as enablers, limiting factors/barriers, and challenges – influencing P2P energy transfer currently and in the future.

Specification of test bed

This deliverable will provide information on the test bed architectures to be developed during this work package. A detailed specification of the hardware and software components will be provided. The set of tests to be performed will also be included.

Benchmark report of the performance of DSOs’, Retailers’, TSOs’, Suppliers’, Service providers’ and Aggregators’ current business models

This deliverable will report the performance and content of current P2P ecosystem players’ business models.

Certification Mechanisms to measure the confidence and reliability of the energy transactions.

This deliverable will provide Certification KPIs and Monitoring Requirements for WP3 and WP6.

P2P-based Probabilistic and Predictive Control Functions

This deliverable will report the probabilistic and predictive control functions that are integrated to enable and facilitate the P2P based energy trading and better network operation under extremely dynamic and uncertain conditions.

Analysis of existing telecom networks and requirements for P2P smart grids

This Deliverable will analyse existing telecom networks and identify requirements and scenarios needed in WP3. P2P-SmarTest business models from WP2 and technical requirements from WP4 will be taken into consideration. The output will be fed back to WP2 and WP4 for revision of models.

Alternative P2P based control paradigm of distribution networks and technical requirements on the associated ICT infrastructure

This deliverable will develop alternative P2P control paradigm of distribution networks and investigate the technical requirements on the associated ICT infrastructure (i.e. communication techniques, information exchange and state estimation techniques).

Integration Demand Side Management and DER for P2P Energy Trading

This deliverable will provide final solutions for the integration of demand side management and DER using P2P energy trading mechanisms including the specifications of standard products and detailed scenarios for Test Cases for WP6.

Internal and external website

An internal collaborative web-based platform will be operational from M2, in order to facilitate the communication and information exchange among the partners. External website is also operational. Maintenance handled in WP7

Website and updates

This deliverable will disseminate the public information on project activities on a project web site

Veröffentlichungen

Combining Market-Based Control with Distribution Grid Constraints when Coordinating Electric Vehicle Charging

Autoren: Geert Deconinck, Klaas De Craemer, Bert Claessens
Veröffentlicht in: Engineering, Ausgabe 1/4, 2015, Seite(n) 453-465, ISSN 2095-8099
Herausgeber: Elsevier
DOI: 10.15302/J-ENG-2015095

Cellular Communications for Smart Grid Neighborhood Area Networks: A Survey

Autoren: Charalampos Kalalas, Linus Thrybom, Jesus Alonso-Zarate
Veröffentlicht in: IEEE Access, Ausgabe 4, 2016, Seite(n) 1469-1493, ISSN 2169-3536
Herausgeber: Institute of Electrical and Electronics Engineers Inc.
DOI: 10.1109/ACCESS.2016.2551978

Modeling and Analysis of Reservation Frame Slotted-ALOHA in Wireless Machine-to-Machine Area Networks for Data Collection

Autoren: Francisco Vázquez-Gallego, Luis Alonso, Jesus Alonso-Zarate
Veröffentlicht in: Sensors, Ausgabe 15/2, 2015, Seite(n) 3911-3931, ISSN 1424-8220
Herausgeber: Multidisciplinary Digital Publishing Institute (MDPI)
DOI: 10.3390/s150203911

Energy Analysis of Contention Tree-Based Access Protocols in Dense Machine-to-Machine Area Networks

Autoren: Francisco Vázquez-Gallego, Luis Alonso, Jesus Alonso-Zarate
Veröffentlicht in: Journal of Sensors, Ausgabe 2015, 2015, Seite(n) 1-12, ISSN 1687-725X
Herausgeber: Hindawi Publishing Corporation
DOI: 10.1155/2015/685164

Virtual Energy Storage System for Smart Grids

Autoren: Meng Cheng, Saif Sabah Sami, Jianzhong Wu
Veröffentlicht in: Energy Procedia, Ausgabe 88, 2016, Seite(n) 436-442, ISSN 1876-6102
Herausgeber: Elservier
DOI: 10.1016/j.egypro.2016.06.021

Optimal home energy management system with mixed types of loads

Autoren: Chen Zhao, Shufeng Dong, Furong Li, Yonghua Song
Veröffentlicht in: CSEE Journal of Power and Energy Systems, Ausgabe 1/4, 2015, Seite(n) 29-37, ISSN 2096-0042
Herausgeber: IEEE
DOI: 10.17775/CSEEJPES.2015.00045

Benefits of using virtual energy storage system for power system frequency response

Autoren: Meng Cheng, Saif Sabah Sami, Jianzhong Wu
Veröffentlicht in: Applied Energy, 2016, ISSN 0306-2619
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.apenergy.2016.06.113

Optimal privacy-cost trade-off in demand-side management with storage

Autoren: Onur Tan, Deniz Gunduz, Jesus Gomez Vilardebo
Veröffentlicht in: 2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC), 2015, Seite(n) 370-374, ISBN 978-1-4799-1931-4
Herausgeber: IEEE
DOI: 10.1109/SPAWC.2015.7227062

Multiarea state estimation with legacy and synchronized measurements

Autoren: Javier Matamoros, Achilleas Tsitsimelis, Maria Gregori, Carles Anton-Haro
Veröffentlicht in: 2016 IEEE International Conference on Communications (ICC), 2016, Seite(n) 1-6, ISBN 978-1-4799-6664-6
Herausgeber: IEEE
DOI: 10.1109/ICC.2016.7510935

Ecosystemic Business Model and Value in the Peer-To-Peer Smart Grid.

Autoren: Xu, Y., Kopsakankas-Savolainen, M., Ahokangas, P. & Li, F.
Veröffentlicht in: The 2016 International Conference on Global Energy Interconnection (2016 GEI), 30-31 March 2016, Beijing., 2016
Herausgeber: -

Business models based on co-opetition in a hyper-connected era-The case of 5G-enabled smart grids.

Autoren: Moqaddamerad, S., Xu, Y., Iivari, M., Ahokangas, P.
Veröffentlicht in: PRO-VE 2016, 2016
Herausgeber: Springer

A Bidding System for Peer-to-Peer Energy Trading in a Grid-connected Microgrid

Autoren: C. Zhang, J. Wu, et.al
Veröffentlicht in: Energy Procedia, 2016
Herausgeber: Elsevier

Use of Heating Loads for Grid Frequency Control

Autoren: M. Cheng, J. Wu, et.al
Veröffentlicht in: Energy Procedia, 2016
Herausgeber: Elsevier

Feasibility of peer-to-peer energy trading in low voltage electrical distribution networks

Autoren: C. Long, J. Wu, et.al
Veröffentlicht in: Energy Procedia, 2016
Herausgeber: Elsevier

Peer-to-Peer Control of Microgrids

Autoren: H. Almasalma, J. Engels and G. Deconinck
Veröffentlicht in: IEEE Young Researcher Symposium, May 12-13, 2016, Eindhoven, 2016
Herausgeber: IEEE

A distributed Gossip-based voltage control algorithm for peer-to-peer microgrids

Autoren: J. Engels, H. Almasalma and G. Deconinck
Veröffentlicht in: IEEE International Conference on Smart Grid Communications (SmartGridComm), 2016, 2016
Herausgeber: IEEE

'Review of Existing Peer-to-Peer Energy Trading Projects

Autoren: C. Zhang, J. Wu, et.al
Veröffentlicht in: 8th International Conference on Applied Energy, 2016, 2016
Herausgeber: Elsevier

Handling Mission-Critical Communication in Smart Grid Distribution Automation Services through LTE

Autoren: C. Kalalas, F. Vazquez-Gallego, J. Alonso-Zarate
Veröffentlicht in: SmartGridCom, Sydney, Australia, November 2016., 2016
Herausgeber: IEEE

Demand response aggregators in microgrid energy trading

Autoren: Maria Gregori, Javier Matamoros, David Gregoratti
Veröffentlicht in: Proceedings of IEEE GLOBALSIP 2016, 2016
Herausgeber: IEEE

Charging Electric Vehicles in the Smart Grid

Autoren: Chris Develder, Matthias Strobbe, Klaas De Craemer, Geert Deconinck
Veröffentlicht in: Smart Grids from a Global Perspective, 2016, Seite(n) 147-161, ISBN 978-3-319-28077-6
Herausgeber: Springer International Publishing
DOI: 10.1007/978-3-319-28077-6_10

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