Abstract
The study focuses on the application of a nonparametric methodology for evaluating the sustainability of retrofitting interventions to be applied on different typologies of buildings and different climate zones of the Mediterranean area. The paper starts from the analysis of data collected through the HAPPEN project, that is a H2020 European project which proposes a holistic approach for a deep and sustainable renovation of the Mediterranean residential Building stock. Even if the European Commission allocated considerable funds for retrofitting interventions, the choice of the optimal solution is not always that easy because several variables have to be considered. The present manuscript proposes a methodology to compare different retrofitting solutions combining Life-Cycle Cost (i.e., LCC) estimations with the nonparametric Directional Distance Function approach (i.e., DDF). In detail, the literature suggests that the DDF can be effectively used for comparing different observations through efficiency scores. The main result of the paper is the definition of a hybrid methodology that, starting from estimates of LCC and applying a DDF technique, represents a simple method for evaluating the best retrofitting intervention. Results are represented by two scores where the former represents a holistic efficiency measure, while the latter shows an environmental efficiency score.
Highlights
The role of environmental sustainability grew over time in all industrial sectors, and the commitment of European Union and researchers to study the impact of energy consumptions and related emissions is increased
We propose a hybrid methodology with the aim to consider the LCA as an input for the DDF model and the CO2 emissions as an undesirable output
Following [10,28,29] the Directional Distance Function allows to obtain efficiency scores solving a linear programming not so different from the scores obtained by the standard data envelopment analysis approach (DEA)
Summary
The role of environmental sustainability grew over time in all industrial sectors, and the commitment of European Union and researchers to study the impact of energy consumptions and related emissions is increased. Building stock included about 35% of EU buildings, which are over 50-years-old, and almost 75% of the building stock is energy inefficient. 0.4–1.2% (depending on the country) of the building stock is renovated each year [1]. The European Union tries to increase the building renovation rates by incentivizing projects that propose deep retrofitting interventions. Data presented and analyzed in this paper were collected thanks to the H2020 project “The Holistic APproach and Platform for the deep renovation of the med residential built ENvironment (HAPPEN)” (accessed on 6 November 2021)
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