Robust and Remote Power Supply
In RoRePower project is to develop and demonstrate solid oxide fuel cell systems for off-grid power generation in certain markets. These markets are such as powering the gas and oil infrastructure in remote regions with harsh climate conditions
(from -40 to +50°C) and the continuous power supplies of telecommunication towers especially in emerging countries (e.g. telecom base stations or microwave transceivers).
ReRoPower project combines leading European SOFC technology companies and research centres to collaborate and form required phases in the SOFC value chain. This collaboration is focused on the development, manufacturing, and validation
of a robust SOFC system and its key components for operation under harsh environmental conditions. The project is driven by industry operating in the field of SOCF systems, it is based on the products and services of industrial partners and motivated by their interest to further develop and commercialize their products and services and consolidate an efficient
value chain by collaboration. Industrial partners are focusing on different phases in the value chain and are not competing against each other. Participating research centres support industrial partners to optimize their products towards a joint target, which is a commercially successful SOFC based system and related value chain.
The fuel cell manufactures Sunfire, Solidpower and New Enerday, all 100 % Europe-based, will develop and demonstrate
robust remote power supply for harsh environments. For the first time, the three manufactures will have a joint development of balance of plant (BOP) components. The common target is to build up respectively to strengthen the European value chain for the remote power specific components and services. Within the proposed project, 15 - 30 remote fuel cell systems will be installed in different countries at the sites of more than five different end-users.
Type of project : Demonstration
Timing : 01/01/2019 > 31/12/2022
Project Budget :
European Union through FCH JU: Grant agreement 824953 - CORDIS link
Project Id: 1573
This project datasheet was last updated on : 03.08.2020
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