Journal of Engineering and Applied Sciences
ISSN: Online 1818-7803ISSN: Print 1816-949x
Abstract
In Atria and other large spaces, smoke from fires can flow freely, leading to unusual patterns of smoke flow. When smoke control systems are designed in Korea, the designer can propose the use of Performance-Based Design (PBD) methods. In the present study, we perform Computational Fluid Dynamics (CFD) modeling and Hot Smoke Tests (HSTs) to implement PBD for an atrium. This study introduces an optimal smoke control system to a target site by comparing the properties of CFD modeling and onsite HSTs in three design scenarios using a forced air supply/exhaust, natural air supply and natural exhaust via. smoke exhaust windows. HSTs and a fire dynamics simulator are applied to each scenario and the results are used to identify variables affecting smoke flow. We distinguish the separate effects of forced ventilation, smoke exhaust window position and natural air supply on smoke flow. These methods can be used as tools to determine the operating conditions for smoke control systems, the effects of supply/exhaust vent positioning on smoke control and building administration measures for Atria of various shapes.
How to cite this article:
Keumsook Hwang, Sukyung Lee and Dongwoo Song. Assessment of Smoke Control Performance via. Fire Simulations and
Hot Smoke Tests.
DOI: https://doi.org/10.36478/jeasci.2019.3588.3594
URL: https://www.makhillpublications.co/view-article/1816-949x/jeasci.2019.3588.3594