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A comparative study was organised in the scope of a recently finished master’s dissertation between three European country’s legal frames: France, Spain and Portugal paying special attention to the Portuguese case. The results of the three studies were compared in order to identify the potential of each regulation in terms of the building’s energetic efficiency whose conception is based on solar passive parameter application. Some of the improvements that were applied are not clearly shown in the results, namely inertia increase (using other solutions and calculus methodology) and different solar orientation. Because of this, a tool for energetic efficiency evaluation of housing buildings is presented that takes into consideration it’s constructive solutions and local climatic characteristics. The results taken were evaluated according to passive solar parameters, for example, thermal inertia and storage specific capacity in relation to the constructive elements. The insignificant impact on results caused by the improvements mentioned implies the need of implementing an evaluation methodology for building’s passive solar performance capable to qualify them in line with the existing regulatory application that leads to the existence of minimum values granting acceptable comfort conditions and energy consumption. This proposed methodology, according to a qualitative analysis of several parameters classified according to pre-established qualitative levels, becomes, in fact, an available tool for the buyer’s choice and an argument to the seller or investor. This paper describes briefly the main aspects of the thermal regulation referred above and, then, it presents and discusses the proposed methodology for the qualitative evaluation of passive solar performance of buildings.

This work enhances the application of a clear and concise methodology to help choosing the most accurate passive solar techniques according to local climate and its influence on construction. To carry out these goals, the analysis of concepts of fictitious temperatures, the psicrometric diagram and its relation to passive solar systems zones previously established and, finally, the constructive changes that each technique requires is needed. This last factor mentioned took into account the technological and scientific knowledge, as well as the current constructive solutions applicable in the building construction sector in Portugal. The article clears these questions from the design point of view, establishing a straight interdependence between theoretic concepts and its practical application, framed by a context of optimisation, adopting the Portuguese traditional construction as the experimental scenario.

To achieve a sustainable building’s behaviour and preserve the environmental balance, three laws must be taken into account: (i) the resources’ consume must not be faster than the rate at which nature can restock them, (ii) the creation of systems that consume maximum energy-quality and (iii) the maximization of the use of renewable and recycled materials. Therefore, the buildings’ rehabilitation process must increase, instead of the proliferation of new buildings, in order to provide the sustainability of the built environment and minimize its ecological impact. The sustainable rehabilitation process is even more difficult in historical areas, in general sited in central zones of the urban mesh, with fragile comfort conditions and a rigid structure. In this paper, different evaluation tools for sustainable buildings were analysed in order to provide a set of evaluation criteria to be applied in the rehabilitation process in historical zones.

The energy consumption of buildings has presented a steady growth in face of the global energy consumption. This fact is related to a variety of factors, including the increased demand for comfort by the inhabitants, the low quality of construction of buildings and their inadequacy to the climatic and environmental context in which they are included. Reversing this tendency includes the necessary intervention in the built environment, promoting the attainment of comfort through interventions that respect the principles of sustainability in construction, namely in resource consumption over the building’s life cycle. Energy rehabilitation can be accomplished by enhancing the envelope’s thermal protection using strategies in terms of i) strengthening insulation in the opaque envelope; ii) strengthening insulation of the glazing and iii) control of solar gains. The use of passive solar systems and the improvement of energy systems are other approaches for improving the thermal performance of dwellings. This study examines the constructive characteristics and the pathologies found in approximately 700 buildings located in Coimbra’s downtown (“Baixa”), the historic sector of the city. From this analysis it was possible to assess the present-day performance of these buildings, attending to the existing code and the application of DesignBuilder software, and to define the desired levels of performance resulting from rehabilitation procedures. The definition of these levels allows the superintendence of the process of intervention, taking into account the solutions to adopt with regard to the principles of sustainability.

Different sustainable evaluation tools can provide a way to certify the building¬¬`s performance during its life cycle: raw material depletion, production of materials and components, construction, use and demolition. In this process, several variables that analyze common components, such as the reduction of resources consume, the reuse and recycle potential, flexibility and adaptability, the pollution components generated during the process, are involved. Some examples of these tools are the systems like SBTool, BREEAM, BEE or LiderA that are used to evaluate a specific context according to specific conditions. Meanwhile, the existing evaluation systems are oriented to the building´s design phase or have under consideration patterns adapted to the 21st century reality. This work was developed due to the need to analyse and evaluate the built environment, specifically in what concerns the urban settlements in Portuguese cities, with more than three hundred years old, and that are not enclosed in the new construction’s reality - both at materials and techniques levels. The knowledge gathered about the built environment allows the creation of a sustainable grid capable of guide-lining rehabilitation actions. The evaluation of these urban areas was carried out based on an exhaustive work of collecting the building’s characteristics, in an area with around 770 buildings, allowing the creation of a built environment sustainability evaluation grid and adapted to socio, cultural, heritage, economic and environmental contexts. The grid mentioned before was designed after a set of parameters were analyzed, such as: i) the existent materials and the constructive solutions adopted; ii) the urban mesh and the meeting of the construction resources to the built environment; iii) the contemporaneous patterns and the possibilities of reusing; iv) the heritage and cultural values; v) the social and economic values. The evaluation grid presented in this work shows a set of different parameters, where the criteria that are related to the external environment are reassessed according to the existent urban possibilities and where the criteria related to internal environment are adapted to the existent spaces’ possibilities.