SELECTION OF TEST LOCATIONS FOR THE DEVELOPMENT OF A SMART MAP SUPPORTING THE RESIDENTIAL USE OF RENEWABLE ENERGIES

Abstract

Abstract In the European Union, the population uses 26% of the energy. Due to the strategic goal of achieving climate neutrality and the crises of recent years, investment in the use of renewable energies has accelerated. In order to support this process, the Circular Economy Analysis Center of the Hungarian University of Agriculture and Life Sciences (MATE) started the development of a so-called multidisciplinary smart map, which shows the possibilities of renewable energy sources that can be used locally, and the selection of the optimal energy production mix based on the location of residential buildings and buildings. The purpose of this article is to present the selection of test sites necessary for the development of the map, highlighting their geographical, meteorological, economic, and social characteristics. Based on the applied multi-criteria system, the selection of testing locations and tasks is a complex task. The investigations are summarized in five chapters. The first one describes the introductory thoughts related to the initiation and development of the project. The second deals with Hungarian residential energy consumption in the light of international data. The third presents the principles of smart map development and defines the criteria for testing locations. And the fourth one analyzes and presents the principles and possibilities of selecting locations. The fifth part summarizes the location selection process, describes the methodology of the applied analyzes and describes the results of the location selection. The described procedure can guide the examination of these factors in other international projects.