PlatOne is a H2020 European Project, which aims at defining new approaches to increase the observability of renewable energy resources and of the less predictable loads while exploiting their flexibility. PlatOne will develop advanced management platforms to unlock grid flexibility and realize an open and non-discriminatory market, linking users, aggregators, and operators. The solutions developed in the project will be tested in European field trials as well as in the ACS laboratory.
PlatOne is a four-year project which started in September 2019 aiming at combining advanced research activities in the area of flexibility management systems, information technology and blockchain to develop a complete new level of market-integration for customers to system operators.
The main outcome of the project is a set of layered platforms which will integrate the needs of system operators, aggregators and end users, while respecting the regulatory framework.
The layered platforms will consist of:
- A blockchain-based platform, for accessing generators’ and customers’ flexibilities
- A local DSO platform, to maintain system integrity fostering confidence in flexibility operations
- An upper layer, with a blockchain-based open market platform, to link local systems to the TSO, boosting global efficiency
The project partners are from industry and academia, from Germany (AVACON, RWTH, BAUM), Italy (RSE, ACEA, SIEMENS, APIO, ARETI, ENGINEERING), Greece (DEDDIE/HEDNO, NTUA) and Belgium (EDSO). The consortium brings together expertise in different fields, including distribution grid management and regulations, energy markets, information technology, and blockchain, which together will contribute to realizing the PlatOne goal.
The main concept that PlatOne envisions is the need to involve customers in unlocking flexibility by participating directly in the open market. In PlatOne, all possible actors should participate in a peer-to-peer (P2P) and non-discriminatory market model to exploit local flexibility. To achieve this vision, the platforms developed in PlatOne would link customers, aggregators, and marketplaces, allowing the DSO’s grid to react to specific market signals.
PlatOne Field Trials
The PlatOne platforms will be deployed and tested in the three different pilots located in Italy (ARETI), Germany (AVACON) and Greece (HEDNO). RWTH will participate in the German field trial, with the goal of demonstrating a balance mechanism in a local area that is able to interact with a central grid control requesting DSO-owned flexibility actions. The coordination between decentralized and centralized flexibility management systems will prove the capability of decoupling low and medium voltage networks by handling energy supply and exchanging energy in bulk packages rather than in real time.
RWTH will also support the field trial in Greece, providing updated version of the low-cost PMU for the validation of operation in extreme weather conditions.
Role of RWTH in the project
RWTH has the key role of the project coordinator and is participating in several work packages. RWTH supports the implementation of the PlatOne platform in WP2, particularly in the integration, testing and commissioning. In WP3, RWTH participates in the validation and analysis of the results of the Italian Demo. In WP4, RWTH will support the development of a state estimation tool whereas in WP5 we will provide algorithms for local and central flexibility management.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 864300.
PlatOne is a 4 year H2020 project led by ACS. The consortium includes E.DSO, equipment and software manufacturers and DSOs in Italy, Greece and Germany.
Volatile renewable energy sources in combination with less predictable consumption patterns call for higher levels of observability and exploitation of flexibility. While these two challenges are traditionally treated with separate means, PlatOne proposes an innovative approach to a joint data management for both. Fully respecting the existing regulatory framework, a layered set of platforms will allow to meet the needs of system operators, aggregators and end users. A blockchain based platform is the access layer to generators’ and customers’ flexibilities able to break traditional access barriers by providing certified measures to all the players. In conjunction, certified data and signals will be used for an innovative DSO platform to locally maintain system integrity fostering confidence in flexibility operations. An upper layer will implement a new concept of blockchain-based open market platform to link the local system to the TSO domains and enhance the overall system cost efficiency. Because flexibility means customer involvement, PlatOne puts the grid users at the centre, investigates their needs and expectations and uses the underlying blockchain to unlock the potentials of higher dynamics of response. The platforms will be tested in 3 large pilots in Europe and analysed in cooperation with a large research initiative in Canada. Thanks to strategic partnerships and a unique consortium structure with an excellent network, PlatOne can offer an unprecedented effort of dissemination and exploitation with focus on DSO experts and final users.