Alexandre Santana Cruz scite author profile

Alexandre Santana Cruz

5Publications

13Citation Statements Received

279Citation Statements Given

How they've been cited

How they cite others

180

279

Affiliations

Federal University of Rio de Janeiro, Pontifical Catholic University of Rio de Janeiro

Publications

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The impact of climate change on the thermal-energy performance of the SCIP and ICF wall systems for social housing in Brazil

Cruz

Cunha

2021

Indoor and Built Environment

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The social housing sector is playing an important role in Brazil, due to the necessity of its expansion. Currently, many residential projects perform poorly in terms of energy efficiency and thermal comfort. In addition, the impact of climate change on energy consumption may aggravate the energy scenario, increasing the dependence on the heating, ventilation and air conditioning system. In parallel to this, there is a growing adoption of the Structural Concrete Insulated Panels (SCIP) and insulated concrete form (ICF) in the Brazilian construction industry, due to their advantages in reducing construction time, and cost. Therefore, this study provides a discussion on thermal-energy performance focusing on parametric analysis of the SCIP and ICF wall systems adoption for social housing in Brazil. Due to the fact that building performance is heavily affected by weather conditions, this study evaluated the computer simulation of the thermal-energy performance of SCIP and ICF wall systems for hot climates while addressing the impacts of climate change. The city of Rio de Janeiro, characterized by the tropical climate was selected, and the Climate Change World Weather File Generator (CCWorldWeatherGen) tool was used to produce weather data for future climate scenarios, such as 2020, 2050 and 2080.

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Passive House Alternative Proposal for the Brazilian Bioclimatic Zone 8

Cruz¹,

Carvalho²,

Cunha³

2020

IJSDP

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The energy consumption in buildings accounts for a significant portion of energy production worldwide hence there is a growing interest in the development of more efficient projects. One way to achieve buildings with low energy consumption while maintaining a high thermal comfort is the Passive House concept. This paper discusses the alternative approach of the Passive House standard for hot climates. The certification refers to a low-energy building standard for cold climate regions that the indoor comfort conditions can be maintained yearround with a specific minimum energy consumption target. There cannot be a single Passive House concept since there are climatic variations. Thus, the Passive House Institute reviewed the proposal for the application of the standard to meet hot climate regions around the world. This study is located in Rio de Janeiro, Brazil and considered a residential project proposal for the city of Pelotas, Brazil. The EnergyPlus software performed the new simulations, to verify the potential of the Passive House concept adoption in Brazil, whose territory is mainly characterized by hot climates.

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A case study to explore the synergy between HBIM and BEM for maintenance of historical buildings

Oliveira

Carmo

Cruz

et al. 2021

IJBPA

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PurposeIn developing countries, such as Brazil, the construction sector is consistently focused on the construction of new buildings, and there is no dissemination of the preservation, restoration and maintenance of historic buildings. Idle buildings, due to the use and lack of maintenance, present pathological manifestations, such as moisture problems that compromise specially their thermal and energy performance. With this in mind, the purpose of this work is to create a digital model using terrestrial photogrammetry and suggest retrofit interventions based on computer simulation to improve the thermal and energy performance of a historical building.Design/methodology/approachThe proposed methodology combined terrestrial photogrammetry using common smartphones and commercial software for historical buildings with building information modeling (historic building information modeling (HBIM)) and building energy modeling (BEM). The approach follows five steps: planning, site visit, data processing, data modeling and results. Also, as a case study, the School of Architecture and Urbanism of the Fluminense Federal University, built in 1888, was chosen to validate the approach.FindingsA digital map of pathological manifestations in the HBIM model was developed, and interventions considering the application of expanded polystyrene in the envelope to reduce energy consumption were outlined. From the synergy between HBIM and BEM, it was concluded that the information modeled using photogrammetry was fundamental to create the energy model, and simulations were needed to optimize the possible solutions in terms of energy consumption.Originality/valueFirstly, the work proposes a reasonable methodology to be applied in development countries without sophisticated technologies, but with acceptable precision for the study purpose. Secondly, the presented study shows that the use of HBIM for energy modeling proved to be useful to simulate possible solutions that optimize the thermal and energy performance.

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Multi-objective optimization of school building envelope for two distinct geometric designs in southern Brazil

Maciel

Cruz

Torres

et al. 2023

Indoor and Built Environment

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The standard Brazilian school projects (EMEIs) were created for the Proinfância [Pro-Childhood] program to respond to the growing national demand for public schools. Unfortunately, the project disregards the Brazilian local climate, leading to an inadequate architectural design, especially in terms of energy performance. Within this context, this research aimed to assess the impact of a new geometric design and envelope proposal on the energy performance of a Brazilian school building. The study object is a standard project (EMEI) of the Proinfância program located in Pelotas, Brazil. Two distinct multi-objective optimizations were performed based on EnergyPlus coupled with the Strength Pareto Evolutionary Algorithm 2 (SPEA2), in which the objective functions were defined to minimize heating and cooling Energy Use Intensity (EUI) for different geometric designs (Base and Linear models). The design variables considered were window-to-wall ratio (WWR); thermal insulation thickness for walls and floor; solar absorptance values for walls and roof; and solar orientation. A total of 74.520 simulations were carried out, and the results indicated that the new geometric design combined with bioclimatic envelope strategies was capable of reducing 52% of the Energy Use Intensity when compared to the standard school project.

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Discussion of the Possibilities to Achieve a Nearly Zero Energy Building (Nzeb) Using the Bim Approach

Cruz¹

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