Abstract—The first energy-plus production facility in Hungary, which is developed with Energy design® planning method and will be realized in 2012, reached its plus energy balance level with help of a special and holistic multidimensional design approach. The novelty of this method lies in dynamic building climate and energy simulations. With simulations supported building modeling complex, precise feedback is obtained already in the early stages of planning about the implications of various design ideas and conceptions in form of indoor climate and energy data. The difference of the performance and the consumption of alternating concepts or the different optimizing development steps of a building can be examined by way of detailed analysis. [1], [2] The optimized model and design plan of the south Hungarian energy-plus industrial and office project was validated with IDA ICE indoor climate and energy dynamic simulations. In this way the simulations ensure quantified effects of modifications due to the construction planning and to the realization of the construction.
Index Terms—Building climate, building energy, dynamic simulations, plus energy balance, geothermal power, solar energy, renewable energy, photovoltaics, solar thermal system, passive ventilation, passive cooling ventilation towers.
István Kistelegdi is with the University of Pécs, Pollack Mihály Faculty for Engineering and Information, Department for Energydesign, Boszorkány u. 2, 7624 Pécs, Hungary (e-mail: kistelegdis@gmail.com). Bálint Baranyai is with the University of Pécs, Pollack Mihály Faculty for Engineering and Information, Department for Energydesign, Boszorkány u. 2, 7624 Pécs, Hungary (e-mail: baranyaibalint@gmail.com ).
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Cite:István Kistelegdi and Bálint Baranyai, "Dynamic Simulations Supported Indoor Climate and Energy Building Modeling," International Journal of Engineering and Technology vol. 5, no. 2, pp. 181-186, 2013.
