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Discover the Subcarpathian Renewable Energy Cluster, a source of information, collaboration, and development in Rzeszów. Explore the IEHE2020-RES project, an intelligent eco housing estate that promotes renewable energy sources and innovative technologies for a better quality of life.
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SubcarpathianRenewable Energy Cluster Intelligent EcoHousing Estate IEHE2020–RES & the newest technology
Rzeszów • a city in southeastern Poland • the population of 185,000 • town charter since 1354 • the capital city of the Subcarpathia (Podkarpackie)Province • numerous IT companies • the capital of the Aviation Valley
The University of Rzeszów • 11 faculties and 1 institute • 49 fields of study • 46 kinds of postgraduate studies • the right to confer a PhD degree in 11 disciplines • the right to confer an Associate Professor degree in 4 disciplines • 1,300 academic and teaching staff • 18,000 students
The Faculty of Mathematics and Natural Sciences • technical and information technology education • physics • technical physics • computer science • computer science and econometrics • safety engineering • materials engineering • mathematics • mechatronics • diagnostic systems in medicine
Science and research centres • Center for Innovation and Transfer of Natural Sciences and Engineering Knowledge • Centre for Microelectronics and Nanotechnology • Interdisciplinary Centre for Computational Modelling • Centre for the Conversion of Biomass and Waste into Energy • Centre for Applied Biotechnology and Basic Sciences
Subcarpathian Renewable Energy Cluster a source of information students’ colaboration an origin of development domestic and foreign contacts acquiring new partners worldwide promotion efficiency of management improvement innovations and new technologies foreign markets selling platform 6
The tradition of RES in the Subcarpathian region • 1920 – the agreement for building the first dam on the part of San river in the Bieszczady Mountains • 1960 – 1968 – building of the dam in Solina • 230 GWh of the pure energy annually
Best practices FH JoanneumKapfenbergAustria Adelaide, Australia: UniSA, UA, Lochiel Park
Smart City andIntelligent Eco Housing Estatean example of implementation of renewable energy sources and the newest technology solutions for the improvement of quality of life
Smart City concept • smart use of innovative concepts, informationand communicative technologies • improvement of accessibility and organization of a city • better efficiency of infrastructure & effective management of city services and resources
Intelligent Eco Housing Estate 2020 project • building of demonstrative estates with • free energy from renewable sources, • electric cars, • intelligent buildings • a place of implementation of innovative solutions • testing its efficiency, • investigations of impressions and the level of public acceptance, • an impact on the standards of life • a promotion of good practices
Objectives of IEHE • energetic self-sufficiency • education & research • integration and public activation • improvement of quality of life • active relaxation • economic activity • an icon of cities
IEHE – wide variety of possibilities • adoption of interdisciplinary approach encompassing technological, economic and social aims to create an optimal model for modern sustainable construction • project team: specialists from different branches, e.g. architecture, economy, physics, industry and more • a good starting point for creating a new way of thinking among Subcarpathian citizens within the scope of using innovative technology in social and economic areas as well as rational management of resources, including natural ones
Stages Stage 1 – research and analysis Stage 2 – concepts and technologies Stage 3 – construction
Flexibility of arrangementpersonalization of each localization educationalpark residence zone social integration zone center activerelax eco-farm
Constructionelements of passive construction greenery land-use; passive heating during winter; natural cooling during summer; protection against cool wind optimalization of a block of a house good thermal isolation acquiring the water for sanitary purposes from fallout water elimination of thermal bridges construction simplification natural cooling and heating with underground channels zoning of rooms in a house energy usage generated inside a building recycling of materials used in a house
Constructionenergy-saving systems systems of intelligent management of a building photovoltaic system solar energy collectors system recovery of heat from water lighting control heat pump batteries storing the energy heat recuperation
Monitoring • on-line readout • energy usage • energy production • meteorological parameters (weather station) PM2,5
Advantages • increasing the innovation character of the region • enhancing economy activity of the region • improving the quality of life • improving energy efficiency • increasing the usage of renewable energy sources • moving on into low-emission economy • maintaining the welfare of natural environment • limiting social-economy inequalities
SubcarpathianRenewable Energy Cluster www.ieo2020.pl www.REScluster.eu www.energia.rzeszow.pl