Vol. 16 No. 1 (2019): Curved It
Articles

Estimation of airflow characteristics of indoor environments in the early design stage

İlker Karadağ
Department of Architecture, Faculty of Architecture, Istanbul Technical University, Istanbul, Turkey
Nuri Serteser
Department of Architecture, Faculty of Architecture, Istanbul Technical University, Istanbul, Turkey

Published 2019-04-16

Keywords

  • Wind efficient design,
  • Architectural aerodynamics,
  • Computational fluid dynamics,
  • Particle based simulation,
  • Natural ventilation.

How to Cite

Karadağ, İlker, & Serteser, N. (2019). Estimation of airflow characteristics of indoor environments in the early design stage. A|Z ITU JOURNAL OF THE FACULTY OF ARCHITECTURE, 16(1), 1–9. https://doi.org/10.5505/itujfa.2019.13007

Abstract

Estimating indoor airflow characteristics of natural ventilation systems is very significant in the early design stage. It's clear that for the early steps of design, existing numerical and experimental analysis methods are very time consuming and they require in depth knowledge of Fluid Dynamics. These methods are not efficient especially in the case that the building form changes dynamically. Besides, both wind tunnel testing and Computational Fluid Dynamics simulations are not efficient when it comes to taking output in real-time. Due to all of these reasons, a need for a fast and robust method occurs. Particle-based algorithms are efficient methods for this type of analyses however they have not been used in architectural aerodynamics. At this point, a very powerful method which doesn't require mesh (control volume) is developed. In this study, the details of the developed algorithm and the output of it are given. The algorithm was assessed in three case studies of natural ventilation systems. As a result, it is seen that the developed algorithm can be a guide in building-wind interaction analysis for architects in the early design stage. However, in our paper, we do not only present case studies, but also an analysis methodology from architectural and engineering perspectives. This is significant because the methodology and the results of this paper constitute a guide for further researches on natural ventilation with a new method and consequently contribute to improved wind quality of indoor spaces.