Solar Energy, Vol.108, 274-286, 2014
On-site measured performance of a radiant floor cooling/heating system in Xi'an Xianyang International Airport
In large space buildings such as airports, radiant floor systems are an attractive alternative to conventional all-air jet ventilation systems due to their advantages in thermal comfort and energy efficiency. This paper focuses on the operating performance of the radiant floor system in Terminal 3 of Xi'an Xianyang International Airport, the first airport terminal in China to adopt radiant floors for cooling. In summer, the typical cooling capacity of the radiant floor is 30-40 W/m(2) with a mean chilled water temperature of 18 degrees C; this range increases to 110-140 W/m(2) with solar radiation of 120-170 W/m(2). The incremental effect of the solar radiation on the cooling capacity of radiant floor is analyzed with simple calculation methods. In winter, the radiant floor provides a heating capacity of 30-70 W/m(2) with a hot water temperature of 35-40 degrees C, which is sufficient to satisfy the heating requirement. Compared with the jet ventilation system adopted in Terminal 2 of the same airport, indoor thermal comfort is significantly improved with the radiant floor system in Terminal 3 in both cooling and heating modes. Moreover, the novel system's indoor air temperature distribution throughout the whole space and its utilization of high-temperature chilled water and low-temperature hot water reveal its potential for energy conservation. (C) 2014 Elsevier Ltd. All rights reserved.
Keywords:Radiant floor cooling/heating;Large space building;Solar radiation;Air-conditioning;Indoor thermal environment