Thermal comfort, effective temperature, predicted mean vote, predicted percentage dissatisfaction.
热舒适,有效温度,预测平均评价,预期不满意百分率。
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。
Objective To provide experimental evidences for the choice of air-condition temperature and thermal comfort.
目的为室内人工空调温度参数的设定及热舒适度提供实验证据。
Dress heat resistance, air temperature and air speed are the three main factors affecting thermal comfort.
服装热阻、空气温度及气流速度是影响人体热舒适性的三个主要因素。
The investigation shows that people are on the whole satisfied with the thermal comfort condition in Shanghai metro system, and the next adjustment to the temperature should be decreasing.
调查显示人们对上海地铁站台热舒适状况基本满意,而适当降低站台环境温度应是下一步的调整方向。
Changing the north balcony to kitchen can not meet the requirement of indoor temperature and thermal comfort. Some opinions are given in this paper.
寒冷地区利用封闭北阳台作厨房,不能满足室内温度及人体热舒适要求,本文提出了改进意见。
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。
Through comparing with the comfort model used widely currently, the apparent temperature model on the basis of thermal equilibrium is proved to be more universal.
经与我国目前应用较为广泛的人体舒适度统计模型的计算结果相比较,证明以热量平衡为基础的人体体感温度模型更具有普遍性。
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。
The comfort temperature range of a air conditioned room and the thermal comfort index's application on a intelligent air conditioner in the future are also discussed.
应用该指标评价了一般空调环境的舒适温度范围,还指出了热舒适指标在未来智能空调中的应用。
It Showed that skin temperature difference, thermal comfort and sensation comfort varied with different air humidity at the same temperature in conditioning room.
结果表明:空调室内气温相同时,皮温差、温热感、舒适感均随气湿不同而出现差异。
Mean radiant temperature is low in deep underground engineering, but traditional air-conditioning parameter cant content the thermal comfort.
深埋地下工程的平均辐射温度偏低,传统空调参数不能满足工作人员的需要。
It was analyzed the variables in the thermal comfort control in train air-conditioning by fuzzy control technique and get the air temperature as the parameter by directly control.
对热舒适控制中的各变量进行了分析,采用模糊控制技术,选择空气温度作为直接受控的参数,并通过调节送风量来实现。
The relation between thermal environment parameters for instance air temperature, relative humidity, air velocity and thermal sensation or thermal comfort has been studied in all environments.
并分析了在实际空调环境下、自然通风环境下和实验空调环境下空气温度、湿度、空气流速、环境辐射温度等参数对人体热感觉和人体热舒适的影响;
Based on the thermal comfort, the Analyses the relation of the variable water temperature, total heat, sensible heat, latent heat, angle-scale, temperature difference between supply and return water.
本文通过分析冷冻水温度变化对风机盘管全热、显热、潜热、热湿比以及供回水温差的影响,讨论了亚热带地区风机盘管采用变水温调节的可行性。
Based on the airflow and temperature fields, the thermal comfort in the chamber is evaluated.
计算了空调硬卧车内三维空气流场和温度场,并与实验结果进行了对照,两者吻合较好。
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。
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 low temperature hot water floor radiant heating system is introduced in this paper. Thermal comfort feature and energy-saving of this system are discussed.
介绍了低温热水地面辐射供暖系统构成,分析了该系统的舒适性和节能性。
In order to reduce energy consumption while keeping a same indoor thermal comfort level, indoor temperature and relative humidity may be determined with the proposed method described in this article.
为了在保持室内适宜温度与相对湿度恒定的同时减少能量的损耗,则需要本文中论述的方案。
In order to reduce energy consumption while keeping a same indoor thermal comfort level, indoor temperature and relative humidity may be determined with the proposed method described in this article.
为了在保持室内适宜温度与相对湿度恒定的同时减少能量的损耗,则需要本文中论述的方案。
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