Improving Renewables Penetration Through Plug and Play Microgrids

For Africa to meet its 2030 SDG7 targets and ambition of attaining energy-for-all by 2040 and climate neutrality by 2063, the proportion of renewables in the current energy mix needs to be dramatically improved through robust and effective technologies, sustainable business models, a skilled technical workforce and an enabling regulatory environment.
RePower will contribute to these efforts by demonstrating and validating a modular and scalable plug-and-play (PnP) microgrid system based on photovoltaics (PV) and biomass combined heat and power (BCHP) augmented with a battery energy storage system (BESS) and an intelligent energy management system (EMS), and by providing tools, processes and a roadmap to replicate the installation of this modular plug-and-play microgrid system at any other location.
The modular and scalable RePower microgrid system will build upon the Solartainer Repower combined with a unique BCHP solution. It will have the capacity and flexibility to provide distributed, affordable, reliable and stable electricity as well as heat and cooling to off-grid communities in Senegal, Niger and Madagascar, with a replication site in Ghana.
The modular and scalable RePower microgrid system. The new Solartainer RePower, combined with a unique BCHP solution, will have the capacity and flexibility to provide distributed, affordable, reliable and stable electricity as well as heat and cooling to off-grid communities in Senegal, Niger and Madagascar. Compared to the average PV-based microgrids currently on the market for Africa, the RePower setup, including BCHP, will improve the renewable energy generation capacity of the existing plants by over 50% while reducing both CAPEX and OPEX and delivery time. The modularity of the system allows system sizing to meet the demands of power for any specific application or locality, thus matching energy supply with demand.

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The consortium has made progress towards establishing a European knowledge base on microgrid installations in Africa and increasing its understanding of the local stakeholders’ acceptance of this technology, and it has developed tools and processes to evaluate the local stakeholders’ adoption of the technologies developed in RePower. The consortium established a cluster called ‘WEFE Cluster’, which was formed of Horizon Europe–funded projects focusing on technology development for Africa. So far, the participating projects are RePower, AfricaEnergyParks, SUNNY, AGRI-COOL, Swarm-E, LoCel_H2, REFFECT AFRICA, and OPTIMG. The cluster's scope is to identify common events where the projects could participate and develop joint webinars or other dissemination activities. In addition, the cluster has also identified thematic areas of interest across the eight projects, such as renewable energy systems and microgrids, circular economy and productive use of energy, sustainable cooking and cooling, gender and social inclusions, and others. We are working with key technical experts in these areas in each of the eight projects to start a series of technical meetings and share lessons learned across these projects and thematic areas. These are preliminary steps towards developing a knowledge base that can be disseminated later.
The consortium made progress on performing a load analysis for the data available until now to evaluate the optimal size of the microgrid for each of the locations in Madagascar, Niger, Senegal and Ghana. In addition, we provided a detailed description of the microgrid components, such as Solartainer, the hybrid inverter, the energy storage, the water purification system and the biomass unit, and their interconnection requirements and drafted a test plan to be performed in the 2nd reporting period to evaluate the performance and reliability of each of these components and provide data for the modelling and optimization tasks.
The production of Solartainers for Denmark and Madagascar is currently in progress, with the internal structural construction successfully completed, a layout of the microgrid installation, the installation instructions, and the procurement and logistics activities submitted.
The consortium established an Advisory Board composed of representatives from the World Bank, Sustainable Energy for All, the Africa Microbusiness Development Agency, the Energy Alliance, and the African Forum for Utility Regulators.
The consortium has partially evaluated community acceptance of the RePower technology and its participation by supplying biomass feedstock through stakeholder analysis and community engagement strategies. Key personnel and local affiliates have already started training in a series of workshops designed to better understand the simulation platform and optimization procedures. The scope of these training sessions is to enable the local teams to take over the design and optimization tasks and design future microgrid installations without project partners' support.

Even though the project is in the first reporting period, using Copernicus data, in the first reporting period, we developed a Digital Landscape Twin to monitor the environmental impacts of the microgrids at each project site and their effect on the use of fuel wood for cooking and heating to ensure the sustainable use of the new technologies. Further developments of the microgrid installation in the second reporting period will address safety and recyclability concerns regarding the battery system and the other components.