Solar Energy Conversion Systems in the Built Environment

short bios will follow
Prof. dr. eng. Ion Visa developed an intensive activity aiming at implementing the sustainable development concept, as the European and Romanian strategies proposed. This group formed in 2005 the R&D Centre Renewable Energy Systems and Recycling (RESREC) and in the same year the first edition of the international Conference for Sustainable Energy (CSE) was launched, being followed, each three years, by a new edition organized in the RESREC Centre and benefiting by a continuous increase in quality and visibility. The last two CSE editions had the proceedings volumes published in Springer: Sustainable Energy in the Built Environment - Steps towards nZEB (2014) and Nearly Zero Energy Communities (2017) and both volumes are in the 25% highly cited publications of Springer.

The RESREC Centre was and is the nucleus of a coherent activity, both in education and in research. The group of authors represents the core that supported the development of an integrated training line that offers study programs to students at B.Sc. level (Engineering of Renewable Energy Systems, Environmental Engineering for Industrial Processes and Wastes Recycling Engineering), at M.Sc. level (Product Design for Sustainable Development and Environment Protection) and at Ph. D. level (in Materials Science and Mechanical Engineering). These study programs were developed mainly through European cooperation grants and activities as the CDA project Solar Energy: Technology and Management (1999-2002). To extend the use of this newly developed knowledge and training line, various adults training projects supported the development of specialized courses for teachers (Comenius 2.1. projects: SEE EU Tool, CO: Prof. Ion VISA and CHEMINC, CO: Prof. Anca DUTA) and for different professionals (e.g. the Leonardo da Vinci project: RES&EM ICT Tools, CO: Prof. Ion VISA).

The team in the RESREC Centre continuously developed a research activity focused on specific aspects of renewable energy systems with a view on the particular aspects of their implementation in the built environment, in a multi-disciplinary approach "from material to product". More than 30 grants financed by national and EU research programs supported this activity. Among these there can be mentioned the grant Product Design for Sustainable Development (CNCSIS Platform, 79/2006, 1.89 million EUR, CO: Prof. Ion VISA) that supported the development and updating of the R&D Infrastructure in the Centre. Based on the experience gained in this grant, in 2009 a structural funds project was granted to the Transilvania University of Brasov, RDI Institute High Tech Products for Sustainable Development, (POSCCE, ID123, 22 million EUR, CO: Prof. Ion VISA) and allowed the development of the R&D Institute of the University, with a specific focus on renewable energy systems implemented in the built environment, consisting of 11 low energy buildings and high level infrastructure fully dedicated to research. Using all these resources, many other grants and contracts were developed focusing on the development of novel solar-thermal collectors implemented in the built environment (grants: EST IN URBA, 28/2010 and MATSOL-T, 277/2006) or on the implementation of photovoltaic systems on buildings or in communities (PLATSOL - PV, 752/2006 or EMAX-BIPV/131/2015) or on novel advanced wastewater treatement processes activated by solar radiation (FOTOCOMPLEX, 71-047/2007; NANOVISMAT 162/2012). Additionally, the team was involved in EU projects promoting sustainable energy, as the Bioenergy Train grant (BET, H2020 N 65676/2015) or the COST projects: Building Integration of Solar-Thermal Systems (COST-STSM-TU1205-35351, CO: Prof. dr. eng. Ion Visa) and PEARL-PV (COST Action CA16235, CO: Assoc. prof. dr. eng. Bogdan Burduhos). These allowed to extend the cooperation network and the resear

1. The Built Environment.- 2 Renewable Energy Sources and Systems.- 3 Increasing the Solar Share in Electricity Production in the Built Environment.- 4 Increasing the Solar Share for Domestic Hot Water, Heating and Cooling in the Built Environment.- 5 Increasing the Solar Share for Electrical and Thermal Energy Production in the Built Environment.- 6 Sustainable Communities.