As a passive cooling strategy to control increased surface temperatures and create cooler urban environments we have developed a passive evaporative cooling wall (PECW) constructed of pipe-shaped ceramics that possess a capillary force to absorb water up to a level higher than 130 cm The current paper presents a simulation system to predict and evaluate microclimate modifying effects of PECWs in urban locations where PECW installation is under consideration at the design stage This simulation system is composed of a CFD simulation tool and a 3D-CAD-based thermal simulation tool Simulation methodology of coupling the two simulation tools was developed and described in this paper Numerical models for simulating surface temperatures and evaporation of PECWs were proposed based on analysis results of experimental data Validation of the proposed numerical models was confirmed by comparing simulated results with measured data In order to demonstrate the applicability of the proposed simulation system a case study was then performed to predict and evaluate the microclimate in a rest station where PECWs were assumed to be installed Spatial distributions of air temperature airflow moisture and surface temperature in the rest station were simulated under a sunny weather condition in the summer of Tokyo Furthermore thermal comfort indexes (mean radiant temperature and new standard effective temperature) were used to evaluate thermal comfort in the human activity spaces of the rest station Simulation results s

• 出版日期2011-3
• 单位广西大学