Abstract
This paper concerns the development of an automatic tool, based on Fuzzy Logic, which is able to identify the proper solutions for the energy retrofitting of existing buildings. Regarding winter heating, opaque and glazing surfaces are considered in order to reduce building heat dispersions. Starting from energy diagnosis, it is possible to formulate retrofitting proposals and to evaluate the effectiveness of the intervention considering several aspects (energy savings, costs, intervention typology). The innovation of this work is represented by the application of a fuzzy logic expert system to obtain an indication about the proper interventions for building energy retrofitting, providing as inputs only few parameters, with a strong reduction in time and effort with respect to the software tools and methodologies currently applied by experts. The novelty of the paper is the easy handling properties of the developed tool, which requires only a few data about the buildings: not many such methods were developed in the last years. The energy requirements for winter heating before and after particular interventions were evaluated for a consistent set of buildings in order to produce the required knowledge base for the tool’s development. The identified appropriate inputs and outputs, their domains of discretization, the membership functions associated to each fuzzy set, and the linguistic rules were deduced on the basis of the knowledge determined in this was. Therefore, the system was successfully validated with reference to further buildings characterized by different design and architecture features, showing a good agreement with the intervention opportunities evaluated.
Highlights
The results indicated that in the optimum conditions, the uniformity of illuminance increased considering a reduction in the number of luminaires and the maximum Unified Glare Rating (UGR) values
This paper addresses the development of an automatic evaluation system, based on a fuzzy logic technique, to support the best choice of energy saving measures to be applied to existing buildings
The tool was developed considering winter heating, considering some elements of the building envelope, and it was successfully validated in order to support the effectiveness of the presented methodology
Summary
Considering the continuous increase in energy consumption typical of the building sector, the present work proposes a tool for the automatic identification of the proper solutions for energy retrofitting [1,2,3,4,5,6] in order to increase the efficiency of existing buildings in reference to the winter heating. The construction sector in Europe is responsible for about 40% of the energy consumption and, for high CO2 emissions [7,8,9,10,11,12]: it represents a sector with a high potential of reduction, and several measures have been taken by the European Commission to reduce this critical issue, as considered in the recent European Directive. From an economic point of view, residential building operating costs are significant when compared to those for construction; energy
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