It should be noted that surely there are many other factors that influence human thermal comfort, notably air velocity.
应当指出的是,肯定还有许多其他因素会影响人体热舒适,尤其是空气流速。
As such, energy consumption cannot be reduced with increasing indoor temperature for a given human thermal comfort level.
同时,为了提供适合人们的室内温度,能量的损耗不能随着室内温度的增加而减少。
The results indicate that well-designed atrium and ventilating method can effectively improve the indoor thermal environment and satisfy the demand of human thermal comfort.
研究结果表明,良好的中庭建筑和通风设计能有效改善室内热环境,满足人体的热舒适要求。
Presents the four main factors affecting human thermal comfort for the system, including type of air supply inlet, distance between air supply inlet and occupancy, air supply velocity and temperature.
介绍了下送风气流组织中影响人体热舒适的四个主要因素:送风口型式,送风口到人体的距离,送风速度,送风温度。
Thermal comfort exists if the human body in thermal equilibrium with its environment, implying a constant temperature of the body.
若人体与环境达成热平衡,以保持体温恒定,就谓之具有热舒适性。
Puts forward a model to predict human thermal sensation under sweating according to the field studies of thermal comfort in Shanghai and Jiangsu.
结合上海、江苏两地的热舒适状况实测结果,提出了一个人体出汗状态下的热感觉预测模型。
The effect of indoor mean radiant temperature on human thermal sensation was analyzed, according to the theory of thermal comfort.
根据热舒适性理论分析室内平均辐射温度对人体热感觉的影响。
Based on the analysis of the human body heat loss, develops a mathematic model for predicting the mean thermal comfort vote in warm and humid environment.
并在分析人体散热的基础上,提出了一个可以对热湿环境中人体热舒适进行预测的数学模型。
The thermal property of textiles is an important parameter related to human body comfort, and extensive research work has been done in this area.
纺织品的热性能是关系到人体舒适性的重要因素,它的重要性是显而易见的,研究者在这个领域内已进行了大量的研究。
Thermal comfort is an important part of the comfortable sensation for human beings.
人体的热舒适是人体舒适感觉中的重要部分。
Presents some measures to improve indoor thermal environment and advance thermal comfort of human body.
提出改善室内热湿环境、提高人体热舒适的措施。
The indoor thermal environment operated by the natural ventilation has beneficial effect on the thermal comfort of human beings.
在热舒适方面,自然通风形成的室内热环境有利于人体舒适性。
Sultable temperature and humidity are proposed as applied indexes of thermal-wet comfort of textiles based on the human body clothing environment system in this paper.
从人体-纺织品-环境这一系统出发,提出了纺织品的适用温度、湿度等热温舒适性的应用指标。
Sultable temperature and humidity are proposed as applied indexes of thermal-wet comfort of textiles based on the human body clothing environment system in this paper.
从人体-纺织品-环境这一系统出发,提出了纺织品的适用温度、湿度等热温舒适性的应用指标。
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