PACE is a major initiative aimed at ensuring the European mCHP sector makes the next move to mass market commercialisation. The project will deploy a total of 2,650 new fuel cell microCHP units with real customers and monitor them for an extended period. This will: - Enable fuel cell mCHP manufacturers to scale up production, using new series techniques, and increased automation. By 2018, four leading European manufacturers (Bosch, SOLIDpower, Vaillant and Viessmann) will have installed capacity for production of over 1,000 units/year (each will install over 500 units in PACE). These production lines will test the manufacturing techniques which will allow for mass market scale up and the reductions in unit cost which will come from associated economies of scale. - Allow the deployment of new innovations in fuel cell microCHP products, which reduce unit cost by over 30%, increase stack lifetime to over 10 years (by end of the project) and improve the electrical efficiency of all units. - Create a large dataset of the performance of the units, which will demonstrate the readiness of fuel cell mCHP as a mass market product. This will prove that fuel cell mCHP can be a leading contributor to reducing primary energy consumption and GHG emissions across Europe. - Allow the units in the trial to be pooled in a large scale test of the concept of aggregating and controlling the output from mCHP to act as a virtual power plant. This will be achieved in a project run by EWE on a section of the German grid earmarked for smart grid trials. - Act as the basis for an effort to standardise mCHP products in Europe, helping create a more efficient market for both installers and component suppliers. The project will provide an evidence base which will be used in a dissemination campaign targeting policy makers (who can provide supportive policies for the next wave of mCHP roll-out) and increasing awareness of the technology within the domestic heating sector (main route to market).

The rising demand and limited supply of critical raw materials (CRMs) impair the ability to rapidly adopt technological change toward green and sustainable technologies, which directly affect the resilience of EU industries seeking to achieve Green Deal objectives for an equitable, zero-emission, and digitalized Europe. In response to these challenges, the European Commission aims to minimize the loss of secondary raw materials (SRM) and optimize their reuse across value chains. CE-RISE will develop and pilot an integrated framework and an ensuing resource information system to identify optimal solutions for the effective reuse, recovery, and/or recycling of materials by (a) defining a set of criteria (RE criteria) to evaluate the extent to which products and embedded components can be reused, repaired, refurbished and/or recycled; (b) incorporating information on RE criteria and material composition of products into the Digital product passport (DPP) to enable traceability of materials in the supply chain; (c) integrating DPP with information on the environmental footprint of products (PEF), socio-economic and environmental (SEE) impacts of RE processes; (d) enabling confidential and anonymized information sharing among actors throughout value chains; (e) providing open-access software application to disseminate information on the assessment of RE criteria, PEF and SEE impacts of products to all stakeholders including consumers and policymakers. The results will be piloted on four case studies. CE-RISE will contribute to bridging the digital divide in society by supplying affordable second-hand ICT devices, and supporting access to digital education and job opportunities. Ultimately, CE-RISE will foster a dynamic ecosystem geared toward prolonging the use of materials in the economy and stimulating circular business models to reduce waste generation while optimizing the reuse of SRMs.