Effects on the Ventilation of a Two-Storey Building under Different Thermal Conditions

Tim Röder,Dirk Müller,Paul Mathis,S.I Tanabe,L Mazzarela,P Wargocki,G Cao,J Kurnitski,H Zhang,C Inard,M.C Gameiro Da Silva,I Nastase

doi:10.1051/e3sconf/201911102009

Abstract

In this paper it is shown how the air flow rate of decentralized ventilation devices can be affected by a staircase of a two-storey building under different thermal conditions. Since these devices need local fans for supplying the requested volume flow, pressure loads have a significant impact on the delivered volume flow rates. Regarding this, the study comprises two analyses: First, a CFD-model is developed to simulate the ventilation air flow through a simplified staircase. By varying parameters for rooms’ temperature and ventilation direction, the hydrostatic pressure in the staircase is evaluated. The simulations – characterized by high Archimedes numbers – are successfully validated with findings from preliminary work. In a second part, the pressure conditions inside the staircase are referred to outside conditions. Consequently, a static pressure difference at the ventilation device on each storey can be observed.We found that the deliverable volume air flow rate can decrease up to 10 % from the nominal flow rate due to temperature differences between the storeys and outside. Therefore, heat recovery and ventilation effectiveness may also be impaired.

Highlights

Over the last couple of years, decentralized ventilation devices have become very popular for domestic buildings
Since these devices need local fans for supplying the requested volume flow, pressure loads have a significant impact on the delivered volume flow rates and on the air flow distribution in the entire building
Decentralized ventilation devices deliver a volume flow rate up to 80 m3/h, which corresponds to air velocities less than 10 mm/s through the staircase

Summary

Introduction

Over the last couple of years, decentralized ventilation devices have become very popular for domestic buildings. Since these devices need local fans for supplying the requested volume flow, pressure loads have a significant impact on the delivered volume flow rates and on the air flow distribution in the entire building. Some of these ventilation systems work in an alternating manner, which means that each ventilation device operates either in a supplying or exhausting mode repeatedly. An open staircase helps to balance the volume air flows on each floor

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