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   温度模拟 在 建筑科学与工程 分类中 的翻译结果: 查询用时:0.492秒
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温度模拟
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  temperature simulation
    Considering fully the influence of inner high temperature to massive concrete through temperature simulation and, optimize concrete ratio.
    根据温度模拟充分考虑大体积混凝土内部高温对混凝土强度的影响,优化混凝土配比。
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    In construction , through temperature simulation for concrete, select reasonable concrete ratio, adopt circular water to lower temperature and 3cm thick felt to keep temperature, use computer to measure temperate automatically. So inner temperature can be surveyed and controlled at all moment by adjusting amount and temperature of circular water.
    施工中根据混凝土温度模拟,合理选择了混凝土配比,选择了循环水降温降温、3CM棉毡层保温措施,计算机自动测温,随时显示各时刻混凝土内部变化,通过循环水流量、水温调节、控制混凝土温度。
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  temperature simulation
Physical transport parameters are calibrated by temperature simulation, and them are used to simulate the profiles of NO3, PO4 and dissolved oxygen.
      
Interfaces produced with one constant temperature simulation method are rough, with several layers of atoms forming >amp;lt;110>amp;gt; chains and (111) facets.
      
As expected, the higher temperature simulation leads to larger excursions in the positions of the energy eigenvalues.
      
Figure 6 corresponds to a low-temperature simulation, and Figure 7 to a high-temperature simulation.
      
High-temperature simulation segments facilitate the crossing of the energy barriers.
      
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Taking one of tested residential buildings as model room, test results as boundary conditions, the relavent mathematical and physical models were established. Indoor airflow of the model room was simulated with CFD software: PHOENICS. The fields of air temperature, velocity and radiant temperature were given. The analysis of the fields and the comparisons between simulation and test results were provided.

以现场调查中测试过的住宅建筑为模型房间,以测试结果为边界条件,建立相应的数学物理模型,利用CFD软件PHOENICS对散热器采暖的室内空气流动进行了数值模拟,给出了空气温度、空气流速和辐射温度的分布,对模拟结果进行了分析并与实测值进行了比较。结果表明空气温度和辐射温度的模拟计算值与实测值吻合较好,而速度的模拟计算值和实测值相差较大。

Based on typical solar irradiance resource of 7 cities in Yunnan,the temperatures of a room with a southern window in a building are calculated and analyzed in this paper with a computational model.The influence of solar irradiance through the southern single glass window with large area in the building on the room temperatures is discussed too.The results show that the room will be overheated by solar energy through the southern window in the building in low latitude(21°~23°N) in Yunnan,because of much higher...

Based on typical solar irradiance resource of 7 cities in Yunnan,the temperatures of a room with a southern window in a building are calculated and analyzed in this paper with a computational model.The influence of solar irradiance through the southern single glass window with large area in the building on the room temperatures is discussed too.The results show that the room will be overheated by solar energy through the southern window in the building in low latitude(21°~23°N) in Yunnan,because of much higher ambient temperature from April to September.The adumbral measures in the window or reducing of its area should be taken in order to keep the room from overheating.The useful temperature upgrades of the room will increase greatly in a majority of regions(23°~29°N),due to solar irradiance energy through the window,and the temperature upgrade reaches about 6℃~7℃ in hiemal half year.The rising of temperature in the room is small in the aestival half year and the overheating of the room will not be occurred.The southern single glass window with large area of the building is greatly meaningful for energy reduction in building,energy saving,and environmental improvement.

基于云南7个城市现有典型的太阳辐射资源,建立了计算模型。通过对建筑室内温度的模拟计算和分析,研究了太阳辐射对建筑南向有大面积单层玻璃窗的房间室内热环境的影响。结果表明:低纬度地区(21°~23°N),4~9月份气温较高,建筑大面积南窗接收太阳辐射会引起室内过热,应作适当遮阳处理或缩小南窗面积。云南大部分地区(23°~29°N)建筑南立面大面积开窗非常有利于室内温度的提升,尤其是冬半年,可达6℃~7℃,且夏半年室内无过热现象。建筑南立面开大面积窗户对减少建筑能耗、节约能源、改善大气质量具有重要意义。

Presents the simplified model and calculating method. Compares the predicted distribution of air velocity and temperature with those obtained from experiments, and considers that the data agree well with each other. Simulates the effects of four kinds of chair ventilation by the simplified model under the same condition, as a result, underchair with backrest ventilation has the best thermal comfort effect, under chair ventilation has the worst thermal comfort effect, and the thermal comfort of the others is...

Presents the simplified model and calculating method. Compares the predicted distribution of air velocity and temperature with those obtained from experiments, and considers that the data agree well with each other. Simulates the effects of four kinds of chair ventilation by the simplified model under the same condition, as a result, underchair with backrest ventilation has the best thermal comfort effect, under chair ventilation has the worst thermal comfort effect, and the thermal comfort of the others is between those of above two modes. Suggests that the thermal comfort effect and initial cost be taken into account in selection of ventilation type in project design.

清华大学李先庭☆陆俊俊吴鹏赵彬摘要给出了座椅送风的简化模型和计算方法,将座椅送风工况下的风速和温度的模拟结果与实验小室的实测数据进行对比,二者吻合较好。利用简化模型模拟了相同设计条件下四种不同座椅送风形式的送风效果,结果表明,座椅下送风+椅背送风形式的热舒适性最好,座椅下送风形式热舒适性最差,另外两者居中。建议工程设计时应综合考虑热舒适性和经济性来确定座椅送风形式。

 
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