Modular design of the PV4Plants system in Turkey
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Explanation of luminescent GCC nanomaterial development and pilot-related design improvements. Together with the data analyzed in the empirical experiments of T2.1, this report will inform on which photon flux values is the optimal for the health of each tested crop.
PV4Plants communication and dissemination plan
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Webpage, social networks and communication materia; plan for the next period and actions completed in the previous one, including clustering activities and communication with other initiatives.. Updated at each reporting period.
Creation of generalised methodology for crop efficiency studies related to spectrum engineering
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Definition of physiological indicators of crop performance. The report will set the basis for understanding how crop production and harvest quality are impacted by the agriPV system and its control (e.g. rotation). The aim is to create a generalised methodology to define how different light spectrums and controlled climate conditions affect the growth of the crops, in terms of quantity and quality of harvest.
Methodological framework for end-users acceptance of agriPV technology
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Report presenting the pre-implementation acceptance strategy and the plan for involving stakeholders from different sectors and the civil society. First results of interaction presented.
LCI (life cycle inventory) and preliminary LCA, sLCA design
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To evaluate the environmental impact of the technology and its potential to increase resource resource efficiency during the entire value chain, LCI (life cycle inventory), preliminary environmental LCA (life cycle assessment) and s-LCA (social-life cycle assessment) design of PV4Plants solution following the relative ISO standards will be provided.