摘要
采用K-ε三维湍流模型对一典型办公室工作区微环境进行了数值模拟,对三种送风速度下工作区的温度场、速度场以及人体吹风感和预期不满意百分率进行了分析研究。结果表明,房间温度呈分区分布,工位送风效率较高,可实现总体节能;在合适的送风速度下,可避免吹风感,保证良好的热舒适性。
Numerically simulates the microenvironment for typical office workspace with partition-type fan-coil unit (PFCU) task air conditioning system by a K-ε three-dimensional turbulent model. Analyses and studies the temperature and velocity distribution, dissatisfied (PPD) at three supply air velocities the draught rating (DR) and the predicted percentage of The results show that the room temperature distribution appears zoning and air supplying efficiency is higher, which can achieve total energy conservation, and that the task air conditioning mode can provide better thermal comfort environment without draught rating when the air supply velocity is well designed.
出处
《暖通空调》
北大核心
2006年第6期18-23,共6页
Heating Ventilating & Air Conditioning
关键词
隔断式风机盘管
工位空调
数值模拟
气流组织
吹风感
预期不满意百分率
partition-type fan-coil unit, task air conditioning, numerical simulation, air distribution,draught rating, predicted percentage of dissatisfied