Low and medium power full-scale atrium fire tests and numerical validation of FDS

  1. Gutiérrez Montes, Cándido
  2. Sanmiguel Rojas, Enrique 1
  3. Viedma Robles, Antonio 1
  4. Rein, Guillermo
  1. 1 Universidad Politécnica de Cartagena
    info

    Universidad Politécnica de Cartagena

    Cartagena, España

    ROR https://ror.org/02k5kx966

Actas:
Advanced Research Workshop “Fire Protection and Life Safety in Buildings and Transportation Systems”: Santander , del 15 al 17 de octubre de 2009

Editorial: Grupo de Investigación y Desarrollo de Actuaciones Industriales (GIDAI), Universidad de Cantabria

ISBN: 978-84-8102-559-0

Año de publicación: 2009

Tipo: Aportación congreso

Resumen

The inclusion of atria within modern large buildings is relative recent. These structures are important architectonical features since the 60’s. Atria are a source of discussion within the fire science community. They introduce complex designs and non conventional architectonical elements that can lead to fire environments diverging from those in current codes. Because of this, the current trend in fire safety in atria is towards performance based design. At this point, it is still necessary to improve and validate the existing numerical models. For this aim, some tests were carried out at the Murcia Fire Facility. These consist of 19 full-scale fire tests that provide with new experimental data of atrium fires. The fire size, the smoke extraction rate and make-up openings size and location were varied. At the present paper, a set of results from some of these experiments in a 20 m cubic facility are reported and discussed. Additionally, comparisons with the predicted results from Fire Dynamics Simulator (FDS) v.4 are also presented. FDS has turned out to be capable to predict the transient fire-induced conditions inside the facility accurately, above all at the upper parts. The predicted smoke layer descent has been also compared with the experimental one with good agreement.