indoor design temperature 中文意思是什麼
indoor design temperature
解釋
室內設計溫度- indoor : adj. (opp. outdoor)1. 屋內的,室內的。2. 待在家裡的。3. 〈英國〉救濟院內的。
- design : vt 1 計劃,企圖,立意要…。2 指定,預定;留給,留著。3 設計,草擬,擬定,籌劃;起草,畫草圖,打(...
- temperature : n. 1. 溫度,氣溫。2. 體溫。3. 〈口語〉發燒,高燒。
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It provides strong basement for the research of design. the method of structure analysis commended by this paper is based on nonlinear finite - element, diathermanous and elasticity mechanics. it found the model of a steel beam pressed by gravity and temperature in the condition of indoor fire
本文提出的結構分析法是在大量參數分析的基礎上,以非線性有限元、傳熱學及彈性力學為基礎,利用ansys軟體,建立一個鋼框架梁在室內局部火災條件下的傳熱模型與在重力荷載及溫度荷載共同作用下的受力模型。 -
Based on developed experimental testing facility, the shading performances of southing horizontal shading devices, vertical shading devices and integrative shading devices of external windows are measured, the performance parameters including indoor temperature, air - conditioned cooling load and shading coefficient as so on. and the shading coefficient of experimental test results and calculation results based on design standard for building energy efficiency are compared, and the windows5. 2 simulation results are compared also. the measured results are consistent with the calculation results of horizontal shading devices and vertical shading devices
本文利用研製的建築遮陽性能檢測裝置,對南向水平遮陽板、垂直遮陽板和綜合遮陽板外窗的遮陽性能(包括室內溫度、空調耗冷量和遮陽系數等)進行了實驗測試,並對遮陽系數的實驗測試結果與節能設計標準的計算值以及windows5 . 2軟體的模擬結果進行了比較分析,測試結果表明水平遮陽板和垂直遮陽板外窗的遮陽系數與計算結果比較一致,相對誤差分別為2 . 5 %和4 % ,而綜合遮陽板外窗的遮陽系數與計算結果的差值比較大,相對誤差達到10 %以上。 -
Through the research work of this article, it is shown that cfd technology can efficeintly instruct the design of indoor air distribution and evaluate indoor air quality and ventilating effect ; the distribution of heat sources have great impact on indoor air distribution ; under variable air volume condition, the indoor temperature and velocity fields are quite even and the thermo - environment is relatively good when using diffusers with coanda effect such as square diffuser and slot diffuser to supply air
經過本文研究發現,利用cfd技術可以有效地對空調室內氣流組織設計進行指導,全面對室內空氣品質和通風效果進行評價。熱源分佈對于空調室內的氣流組織具有極其重大的影響。在變風量條件下,利用具有良好貼附效應的送風口如方型散流器和條縫風口送風,空調室內的溫度場和速度場較均勻,室內的熱環境良好。 -
Water supply temperature, indoor design temperature, distance of embedded pipe, diameter of embedded pipe and material of ground floor are important factors influencing cooling and heating radiation floor system
摘要影響冷暖輻射地板系統的幾個重要因素有供水溫度、室內設計溫度、埋管管距、埋管管徑和地面層材料。 -
Based on thermal comfort formula and pmv / ppd evaluation indices, design indoor temperature of residential building with household heating and heat metering systems was studied in this dissertation. it was determined that the range of indoor temperature is 16c ~ 24c when design indoor temperature is 20c
本文從熱舒適、工作效率以及健康標準等方面出發,以熱舒適方程及pmv ppd評價指標為依據,對採用分戶計量供熱系統的居住建築的室內設計計算溫度的確定進行了研究,確定其為20 ,室內溫度的變化范圍是16 24 。 -
The capacity of saving energy increases along with the increase of indoor design temperature
節能效果隨著室內設計溫度的提高而提高。 -
As far as energy efficiency buildings, design indoor temperature is increased, but its energy consumption is less than that in ordinary buildings at the temperature of 18c
研究表明,對節能建築而言,雖然室內設計溫度提高了,但是採暖能耗比非節能建築在18時的能耗低。 -
Of course, increase of design indoor temperature must lead to increase of energy consumption, so the feasibility of 20c is demonstrated from the aspect of building consumption
當然,溫度的提高必然帶來能耗的增加,因此從建築能耗方面論證了室內設計溫度提高為20的可行性。 -
The goal of this thesis is to give a scheme on the application of wireless sensor network system indoor. first of all, we have a deep research on the ‘ telos ’ node, secondly, we build up a stack system structure of wireless sensor network to monitor the temperature of the building intellectively, design and realize the network stack including physical layer, data link layer, network layer and application layer. finally, we debug the software in order to verify the network layer and the application layer
本文以智能樓宇溫度監測應用為設計目標,以em2420射頻晶元和atme128l單片機為設計載體,在詳細研究telos節點方案基礎上,對面向設計目標的室內無線傳感器網路節點的物理層、數據鏈路層、網路層和應用層之間的網路協議棧進行了實現性設計,建立了立足設計目標的無線傳感器網路協議體系,並在avrstudio4 . 11調試環境下對網路層和應用層設計正確性進行了調試驗證。
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