The reorganization of urban spaces plays a crucial role in reducing carbon dioxide and promoting indoor air quality. In parallel, advances in research on sustainable buildings and air quality, as well as digital tools for construction management, have revolutionized civil engineering. We propose a detailed analysis about how well-planned open spaces positively influence ventilation and air quality, both in and around buildings. This reorganization is vital to tackle climate change, like rising temperatures with high energy costs for cooling, heating and ventilation. The methodology used in developing the proposal prioritizes BIM technology, implemented by a multidisciplinary team to integrate strategies and solutions for planialtimetric surveys, morphology, air quality, and buildings designed with energy-efficient and environmentally sustainable concepts. The planning of green areas should focus on innovative urban management and integrating green space with the neighborhoods. The study was conducted at the Experimental Station Horto Florestal, a public-private space that serves as a refuge for researchers. This site demands strict adherence to air quality standards, pollution resilience, and urban landscape conservation. The preliminary results serve as guidelines for planning indoor air quality concepts from the early stages of project development. The local climate characteristics and terrain topography were used as starting points for designing the air quality systems of the buildings. The results obtained underscore the importance of project cities and building that not only mitigate environmental impact but also promote healthier and more sustainable indoor environments.

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Preliminary Results: Innovations and Trends in the Planialtimetric Survey to Obtain Air Quality in the Civil Construction Process Based on BIM

  • Clélia Mendonça de Moraes,
  • Everson de Castro Rodrigues,
  • Anderson A. L. Souza,
  • Sara Zamprogno Barbieri,
  • Fernanda G. F. Gomes,
  • Tiago Martins de Azevedo

摘要

The reorganization of urban spaces plays a crucial role in reducing carbon dioxide and promoting indoor air quality. In parallel, advances in research on sustainable buildings and air quality, as well as digital tools for construction management, have revolutionized civil engineering. We propose a detailed analysis about how well-planned open spaces positively influence ventilation and air quality, both in and around buildings. This reorganization is vital to tackle climate change, like rising temperatures with high energy costs for cooling, heating and ventilation. The methodology used in developing the proposal prioritizes BIM technology, implemented by a multidisciplinary team to integrate strategies and solutions for planialtimetric surveys, morphology, air quality, and buildings designed with energy-efficient and environmentally sustainable concepts. The planning of green areas should focus on innovative urban management and integrating green space with the neighborhoods. The study was conducted at the Experimental Station Horto Florestal, a public-private space that serves as a refuge for researchers. This site demands strict adherence to air quality standards, pollution resilience, and urban landscape conservation. The preliminary results serve as guidelines for planning indoor air quality concepts from the early stages of project development. The local climate characteristics and terrain topography were used as starting points for designing the air quality systems of the buildings. The results obtained underscore the importance of project cities and building that not only mitigate environmental impact but also promote healthier and more sustainable indoor environments.