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 effect of indoor mean radiant temperature on human thermal sensation was analyzed, according to the theory of 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。
Mean radiant temperature is low in deep underground engineering, but traditional air-conditioning parameter cant content the thermal comfort.
引入室内空气质量和噪声,结合温度、相对湿度、风速和平均辐射温度作为室内环境综合评价参数。
Introduces indoor air quality and noise level as integrated parameters along with air temperature, relative humidity, air velocity and mean radiant temperature.
通过试验测得空气平均温度、地板表面温度、实验室围护结构的平均辐射温度等一系列参数,得出利用热管辐射采暖时的人体舒适度。
It obtain the temperature of room air and floor, mean radiant temperature of building envelope and draw a conclusion of human body comfort.
为了使地球保持恒定的平均温度,来自地球的这种辐射必须平衡入射的太阳辐射。
For the Earth to maintain a constant average temperature, such emissions from the planet must balance incoming solar radiation.
二氧化碳浓度过高引起的平均温度变化,可能会因为实施第一种办法有所缓和,单纯减少太阳辐射量却并不能让气温恢复到以前的状况。 当地的温度仍旧会发生变化,比如受洋流,降雨量,土壤湿度和光合作用的影响。
While it is possible to imagine doing so in a way that cancels out the change in average temperature caused by an increase in carbon dioxide, such a reduction would not simply restore the status quo.
在不计扰动的情况下,在具有年周期的太阳短波辐射的作用下,逐渐建立起下垫面纬圈平均温度梯度及基本气流。
In the absence of disturbances the surface temperature and basic currents are gradually set up by the excitement of solar radiation with an annual period.
有人认为,最近那些表明地球平均温度正在上升的有充分依据的数据可以用太阳辐射的正常变化来解释,而且这一趋势可能行将结束。
Some think that recent, well-grounded data suggesting the Earth's average temperature is rising are explained by natural variations in solar radiation, and that this trend may be coming to an end.
再利用地面温度、气温、水汽压和总云量,计算得出福建省各地的地面有效辐射的月、年平均辐照度。
The ground effective radiations are calculated based on the ground temperature. air temperature. water vapour pressure and total cloud cover.
再利用地面温度、气温、水汽压和总云量,计算得出福建省各地的地面有效辐射的月、年平均辐照度。
The ground effective radiations are calculated based on the ground temperature. air temperature. water vapour pressure and total cloud cover.
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