TY - JOUR
T1 - A comparison of the thermal comfort performances of a radiation floor cooling system when combined with a range of ventilation systems
AU - Liu, Jiying
AU - Li, Zhuangzhuang
AU - Kim, Moon Keun
AU - Zhu, Shengwei
AU - Zhang, Linhua
AU - Srebric, Jelena
N1 - Funding Information:
The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: This work was supported by the National Natural Science Foundation of China (51608310), Science and Technology Plan Project of University in Shandong Province (J16LG07) and Innovation Team of the Co-Innovation Center for Green Building of Shandong Province in Shandong Jianzhu University.
Publisher Copyright:
© The Author(s) 2019.
PY - 2020/4/1
Y1 - 2020/4/1
N2 - This study conducted a series of computational fluid dynamics simulations to evaluate the thermal comfort performance of a radiant floor cooling system when combined with different ventilation systems, including mixed ventilation (MV), stratum ventilation (SV), displacement ventilation (DV) and ductless personalized ventilation (DPV). A window temperature of 32°C and three different floor temperatures including 20, 22 and 24°C were set in summer. We used the vertical air temperature differences (VATD) at ankle and head level, the percentage of dissatisfied, the draught rate at the ankle level and the equivalent temperature as our main evaluation indices. Our results show that the VATD in DV system can reach up to about 5°C, compared with about 2°C in MV and SV systems. For the DPV system, there is only a marginal drop in the VATD. For the DV and DPV cases, with a rate of air changes per hour (ACH) of 2.4−1, we recorded a higher draught rate at the ankle level, ranging from 6.55% to 9.99%. The lower equivalent temperature values for the foot and calf segments occur when the floor temperature is 20°C. In all cases, the equivalent temperature values of the whole body indicate an acceptable level of thermal discomfort.
AB - This study conducted a series of computational fluid dynamics simulations to evaluate the thermal comfort performance of a radiant floor cooling system when combined with different ventilation systems, including mixed ventilation (MV), stratum ventilation (SV), displacement ventilation (DV) and ductless personalized ventilation (DPV). A window temperature of 32°C and three different floor temperatures including 20, 22 and 24°C were set in summer. We used the vertical air temperature differences (VATD) at ankle and head level, the percentage of dissatisfied, the draught rate at the ankle level and the equivalent temperature as our main evaluation indices. Our results show that the VATD in DV system can reach up to about 5°C, compared with about 2°C in MV and SV systems. For the DPV system, there is only a marginal drop in the VATD. For the DV and DPV cases, with a rate of air changes per hour (ACH) of 2.4−1, we recorded a higher draught rate at the ankle level, ranging from 6.55% to 9.99%. The lower equivalent temperature values for the foot and calf segments occur when the floor temperature is 20°C. In all cases, the equivalent temperature values of the whole body indicate an acceptable level of thermal discomfort.
KW - Computational fluid dynamics
KW - Equivalent temperature
KW - Radiant floor cooling system
KW - Thermal comfort
KW - Ventilation
UR - http://www.scopus.com/inward/record.url?scp=85071474544&partnerID=8YFLogxK
U2 - 10.1177/1420326X19869412
DO - 10.1177/1420326X19869412
M3 - Article
AN - SCOPUS:85071474544
SN - 1420-326X
VL - 29
SP - 527
EP - 542
JO - Indoor and Built Environment
JF - Indoor and Built Environment
IS - 4
ER -