Eco-SolarProject reference: 679692
Funded under :
H2020-EU.18.104.22.168. - Technologies for Factories of the Future
Eco-Solar Factory - 40%plus eco-efficiency gains in the photovoltaic value chain with minimised resource and energy consumption by closed loop systems
Total cost:EUR 5 642 707,75
EU contribution:EUR 5 642 707,5
Topic(s):FoF-13-2015 - Re-use and remanufacturing technologies and equipment for sustainable product lifecycle management
Call for proposal:H2020-FoF-2015See other projects for this call
Funding scheme:RIA - Research and Innovation action
EcoSolar envisions an integrated value chain to manufacture and implement solar panels in the most ecologic way by maximising resource efficiency, taking into account reuse of materials during production and repurposing solar panel components at end of life stage. EcoSolar will demonstrate that during the lifetime of a solar electricity producing field, individual panels can be monitored, allowing to identify defaulting panels at an early stage, replacing or repairing them and thus to increase the overall energy yield.
In WP1, SINTEF&Norsun will work on recovery & reuse during silicon ingot crystallisation, addressing recovery of argon purge gas and work with Steuler on reusable crucibles. In WP2 Garbo will recover Si-kerf-loss during wafering, and with SINTEF work on potential reuse applications, like as Si-feedstock in crystallisation processes, or as resource in crucible manufacturing or lithium ion battery production. In WP3, ISC&SoliTek will look into potential for re-using process water; reducing material resources, like chemicals and silver, by smarter solar cell design, more efficient processes and recovery and reuse of chemicals; AIMEN will develop solar cell monitoring and repair for inline processing in an industrial plant, to enable remanufacturing. In WP4 Apollon will use a module design that results in reduced bill of materials, enables remanufacturing and reuse of components from modules that showed failures after assembly or have been identified as malfunctioning in operating PV installations, based on integrated diagnosis techniques for the detection of failure modes.
bifa will collect data from all previous WPs to assess environmental impact of the intended innovations (WP5). Bifa will identify waste streams that are costly and hard to recycle and find opportunities to repurpose those waste products. BCC will disseminate the results and will support the partners with the exploitation and replication potential of the results (WP6).
EU contribution: EUR 1 187 865
EU contribution: EUR 874 095
EU contribution: EUR 547 500
EU contribution: EUR 548 700
EU contribution: EUR 630 750
EU contribution: EUR 248 375
EU contribution: EUR 169 276
EU contribution: EUR 461 209
EU contribution: EUR 433 687,5
EU contribution: EUR 312 500
EU contribution: EUR 228 750