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CFD investigation of indoor hygrothermal performance in academic research storage room : measurement and validation

Oladokun, MO; Ali, M; Bahrin Osman, S; Samsuddin, N; Hamzah, HA; Salleh, MN

Authors

MO Oladokun

M Ali

S Bahrin Osman

N Samsuddin

HA Hamzah

MN Salleh



Abstract

Poor hygrothermal performance exacerbates deterioration risk from mould growth, corrosion and damage to
archival materials. Improved microcomputers’ computational power has significantly advanced computational fluid
dynamics (CFD) models and research developments in indoor airflow, heat transfer and contaminant transport.
Nevertheless, numerous uncertainties exist in the CFD experiments which require adequate clarifications for improved
results’ reliability. This paper presents the measurement and validation of a CFD model for the investigation of the
hygrothermal performance in an indoor environment with known cases of microbial proliferations. The room, 5.2 m × 4.8
m × 3.0 m high, is air-conditioned and ventilated by constant air volume (CAV) system controlling the indoor airflow and
hygrothermal profiles with ceiling mounted four-way supply diffuser and extract grille for indoor air distribution. The
methodology combines in-situ experiment and numerical simulation with a commercial CFD tool using the standard k–ε
model. Microclimate and airflow parameters obtained from in-situ experiments were used as boundary conditions in the
CFD. The study shows a good agreement between the predicted and measured indoor hygrothermal profile with less than
10% deviation. The results indicate that the model can be employed for further investigation with high confidence.

Citation

Oladokun, M., Ali, M., Bahrin Osman, S., Samsuddin, N., Hamzah, H., & Salleh, M. (2017). CFD investigation of indoor hygrothermal performance in academic research storage room : measurement and validation. Journal of engineering and applied sciences (Asian Research Publishing Network), 12(10), 3130-3136

Journal Article Type Article
Publication Date May 20, 2017
Deposit Date Mar 3, 2020
Journal ARPN Journal of Engineering and Applied Sciences
Print ISSN 2409-5656
Volume 12
Issue 10
Pages 3130-3136
Publisher URL http://www.arpnjournals.org/jeas/research_papers/rp_2017/jeas_0517_6013.pdf
Related Public URLs http://arpnjournals.com/jeas/
Additional Information Access Information : The full text of this article is freely available to read by clicking on the link above.
Funders : International Islamic University Malaysia and the Ministry of Higher Education (MOHE) Malaysia
Grant Number: FRGS12-067-0126


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