RESULTS

D2.1 Report on scenarios for micro-grid deployment

In this report, the scenarios for demonstration are defined. The report includes descriptions of the demonstration sites in Sweden and France and specifications and projected growth of various emerging technologies.

The report is produced by WP2 that includes scenario definitions, functional requirements for micro-grids and preparation for demonstration sites.

Year: 2017

D 2.1 – Report on scenarios for micro-grid deployment

D2.2 Specification of functional requirements

This report focuses on the specification of functional requirements and defines the functional requirements within the three layers of the micro-grid operation: Hardware layer, middleware layer and service layer.

The report is produced by WP2 that includes scenario definitions, functional requirements for micro-grids and preparation for demonstration sites.

Year: 2018

D 2.2 Specification of functional requirements

D2.3 Preparation for demonstration sites

This report describes the physical test sites in France and Sweden, the requirements and preparation for the tests as well as communication and control set-ups”.

Year: 2019

D 2.3 Preparation for demonstration sites

D3.1 Development of Appropriate PPF Algorithm for Future Planning Process

In this report, a novel methodology for PPF analysis is presented that can handle high dimensionality and nonlinear correlation of the input random variables.

Year: 2018

D3.1 Development of appropriate PPF algorithm for future planning process

D3.2 Report on new clustering algorithms with simulation results

This report proposes a dynamic clustering mechanism in order to provide flexibility for minimizing the imbalance cost during real-time operation, applied in a case study simulation.

Year: 2019

D3.2 Report on new clustering algorithms with simulation results

D4.1 Control algorithms for micro-grid local controllers

The aim of the report is to present the local voltage controller box previously developed by project partner CEA and proposals of how to enhance the communication capability of local controllers.

Year: 2018

D4.1 Control algorithms for micro-grid local controllers

D4.2 Interaction between physical micro-grids

The aim of the report is to introduce an overview of the physical multi-micro-grid (MMG) system from the point of view of Energy Internet (EI). In this work, MGs in the MMG system are able to interact directly with each other through the energy router (ER).

Year: 2019

D4.2 Interaction between physical micro-grids

D4.3 Report on physical micro-grid interface with real test-site validation

The aim of the report is to present the integration of the MG-EMS to the distribution system and investigate challenges and benefits for the MG operators and the DSO. For this purpose, it presents the mathematical models that have been developed to describe the service layer of the interface that maps the MGEMS functionalities to the functionalities of the DMS.

Year: 2019

D4.3 Report on physical micro-grid interface with real test-site validation

D5.1 Customizing the flexibility toolbox for commercial microgrids

This report provides an overview of the flexibility tool-box developed by TU/e in a previous project, describing how a local flexibility market framework can be used for trading flexibility between micro-grids and the interested market parties (energy suppliers, distribution network operator, Balance Responsible Parties).

The tool-box includes two different procedures: one market-based and one contractual-based, for the procurement of flexibility services from microgrids. Furthermore, this report provides an overview of the possible interactions of commercial microgrids in the context of the rapidly evolving European legislation.

Year: 2019

D5.1 Customizing the flexibility toolbox for commercial microgrids

D5.2 Exploiting flexibility between commercial microgrids

The report aims to develop the interaction among commercial microgrids and how commercial microgrids can benefit from active end-users. It introduces the concepts of commercial microgrids, multi agents for multi-microgrid system, demand side management and demand response, as well as the relationships between commercial microgrid with local entities. Further, it presents the development of an interface between commercial microgrids via an aggregator with multi-agent system technology.

Year: 2019

D5.2 Exploiting flexibility between commercial microgrids

D5.3 Report on market design for micro-grid markets including interaction with the surrounding system and market

This report summarizes the work performed in Task 5.3 of the m2M-GRID project. The main topic of Task 5.3 is to study the market-based processes for energy exchange within and between local markets for energy and flexibility. This is a very broad subject that can be analyzed in many different ways. It has therefore been necessary to further concretize the task, which has been achieved in two different ways.

Year: 2019

D5.3 Report on market design for micro-grid markets including interaction with the surrounding system and market 

D6.1 Demonstration of micro-grid energy management systems in Gothenburg

This report describes the demonstration of a MG energy management system (MG-EMS) at two physical test sites in Sweden. The MG-EMS is employed by the MG controller, which manages the clusters of producing and consuming units, and its main task is to optimally balance load and supply (either by MG resources or through interconnections). The MG-EMS and the first demonstration of the MG-EMS at a real-site was first presented in the report for Task 4.3. The work performed for Task 6.1 extends that work and validates the developed MG-EMS at the test systems, which were set up at the demo sites. 

Year: 2020

D6.1 Demonstration of micro-grid energy management systems in Gothenburg

D6.2 Demonstration of Coordinated voltage control<br /> at SOREA site