Popis: |
The growing demand for the use of photovoltaic (PV) systems integrated in buildings, having the need to be versatile, to provide design and multifunctional features more evolved than the only energy production, is imposing a profound change in the sector of Building Integrated Photovoltaics (BIPV), with major challenges to be addressed in the coming years. Supported by an increasing technological development, by digitization and process innovation, such systems will progressively be implemented in the construction market allowing the achievement of the nZEB policies. BIPV products are evolving from the basic architectural integration towards multifunctional products, aggregating essential PV requirements with additional requirements from the building skin such as thermal insulation, solar control, fire safety, water tightness, etc. However, to effectively enter the building market, the BIPV products will necessarily have to respect the goal of costeffectiveness as well as the compliance with adequate quality, safety and reliability levels. In this context, the H2020 project "BIPVBOOST" is focused on obtaining a reduction in costs along the entire value chain by pursuing product and process innovation, thus supporting the BIPV implementation in a wider mass market of the built environment. In addition to a technological development, it is essential to solve the interconnection between PV product standards, construction industry standards and specific rules for the installation and use in buildings. The EN 50583-1:2016 and EN 50583-2:2016 [1] made a first step in this direction by defining the properties and the applicable regulatory framework for PV systems modules used as construction products. Nevertheless, the current regulatory framework collects norms created for standard PV or, on the other hand, for “non-active” building elements, so that a significant progress regarding BIPV qualification is still needed, and it represents a current barrier for the market access. It arises the need to identify new “multi-disciplinary” reference requirements, to improve the definition of the performance levels and to develop new test methodologies better suited to the use of PV in the building skin. Therefore, these issues will be addressed within the project by identifying the gaps in the current standards and by implementing a performancebased approach for the qualification of BIPV products. The paper, summarizing the first investigations of the project, will provide an overview on the current normative framework, reporting the main missing gaps and a roadmap to define new reference procedures for BIPV products qualification, setting the basic ground for next developments in the coming years. |