1) indoor floor surface temperature
室内地板表面温度
2) floor surface temperature
地板表面温度
1.
The modular floor radiant heating system and its characteristics are introduced, the calculation model of the modular floor radiant heating is established, and the influence of coiled pipe spacing and supply and return water temperatures on the floor surface temperature as well as the internal temperature distribution of the geometric model are analyzed with finite element analysis software ANSYS.
介绍了模块式地板辐射供暖系统及其特点,建立了模块式地板辐射供暖的计算模型,利用有限元分析软件ANSYS,分析了盘管间距、供回水温度对地板表面温度的影响和几何模型内部的温度分布。
2.
The results revealed the relationship of floor surface temperature and heat lag with floor structures and water conductions.
测试结果反映了地板表面温度和传热延迟时间与管径、管间距、管道埋深和管道平均水温之间的关系。
3) average floor surface temperature
地板表面平均温度
1.
The variation of average floor surface temperature with the average temperatures of supply and return water as well as the variation of indoor air temperature,black ball temperature and irradiance with the height are studied by means of experiments.
通过实验,研究了地板表面平均温度随供回水平均温度的变化,室内空气温度、黑球温度及辐射照度随高度的变化。
4) temperature evenness in floor surface
地板表面温度均匀性
5) internal surface temperature
内表面温度
1.
Roof green thermal inertia statistical analysis was made with internal surface temperature data tested in whole summer in Chongqing city.
利用屋顶绿化内表面温度夏季测量数据进行热惰性统计分析,提出了实际气候作用下衰减性和延迟性的评价方法。
2.
Measures internal surface temperatures of roofs with and without greening and climate parameters under natural climate in Chongqing summer.
在夏季自然通风状态下对重庆有绿化屋顶和无绿化屋顶内表面温度和气候参数进行了测量。
3.
Average temperature gradients in the workshop with radiant heating system,envelope internal surface temperatures under different outdoor temperatures are got.
针对以上数学模型,文中应用数值计算方法编制了计算程序,利用蒙特卡洛法进行非线性方程组的求解,得到了对应于不同室外空气温度、室内工作区温度,应用辐射采暖厂房的室内温度梯度、围护结构内表面温度。
6) outdoor ground surface temperature
室外地表温度
补充资料:表面温度测量
表面温度测量
surface temperature measurement
bia以1,ian功旧ndu celiang表面温度测t(s urface temperatu二~uI’e-~t)指固体表面温度测量、两固相界面温度测量和液体表面温度测量等。广泛应用于冶金、石油化工、机械加工、生物医疗工程、航空航天等领域。主要特点是受传热面边界条件影响大,误差主要来源于测温元件供散热不平衡和接触热阻。另外,在辐射测温时,非黑体辐射的影响和气体吸收的影响也会给测量带来误差。表面温度测量可分为表面接触测量和非接触测量。表面接触测量中,被测物体表面和温度计相接触,由于破坏了表面温场,引人接触热阻,故误差相对较大。主要分为便携式表面温度计和固定式表面温度计,热敏元件常用热偶式或热阻式。非接触测量由于温度计和被测物体表面不接触,不改变物体表面温场,所以测量精度较高,而且可以测量运动物体的表面温度。主要分为辐射测温法、光纤测温法、电涡流测温法和感应测温法。(王磊)
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参考词条