dynamic heating造句

例句与造句

1. Dynamic heat transfer analysis of a water storage roof
   蓄水屋面的传热特性动态分析
2. A dynamic heating control method for shape memory alloy
   形状记忆合金的动态加热控制方法研究
3. Dynamic heat characteristics of radiators after a step change in flow rate
   流量阶跃变化后散热器动态热特性分析
4. Study on the characteristics of cryogenic dynamic heat transfer for a small sample by dual - phase - lagging model
   小样品低温动态传热双相滞后模型的理论分析
5. The ehtv considered thermal transfer by differ temperature and solar radiation of wall windows and roof , it also included the affect of regenerator and radiation of envelop in dynamic heat transfer
   Ehtv指标中考虑了外墙、外窗、屋面的温差传热及太阳辐射热作用，也包括了围护结构在动态热作用下的蓄热和放热影响。
6. It's difficult to find dynamic heating in a sentence. 用dynamic heating造句挺难的
7. The base of ehtv calculation is analyzing the dynamic heat transfer to equivalent temperature difference solar factor of windows , for the shading of windows it used external shading multiplier
   Ehtv简化计算的基础是将这些动态热作用分解为等效温差、标准窗太阳辐射得热等参数，而且系统地提出外遮阳系数，简化了建筑遮阳对外窗太阳辐射得热的计算方法。
8. A new envelope heat conduction stimulation model which is also called 3r2c thermal network model , based on circuit principle , is used to stimulate and analyze the process of dynamic heat conduction of multiplayer envelope
   本文基于电路原理建立一种新的墙体围护结构传热优化仿真模型-热流网络模型( 3r2c模型) ,类似于电路模型,用此来模拟、分析多层墙体围护结构动态传热过程。
9. The " cryogenic rubber powder " has a wide usage in various products . it can produce more durable tyre , which not only decrease dynamic heat build - up but also strengthen the flex - resistance and improve the revolution resistance . these help to prolong the lifetime of tyre
   其所制成的轮胎，因改良物理性能，降低高速行使生热、提高胎侧的耐屈性、改善轮胎的滚动阻力，从而延长轮胎的寿命。
10. For the need of architecture design , it appears more and more cylindrical walls and semi - spherical roofs . however , current space load - predicting programs do not account for the effect of dynamic heat conduction for above two constructions on indoor space load
    由于建筑设计的需要，出现了越来越多的圆柱形的墙体和半球形的屋顶结构，而现有的负荷计算程序并没有考虑这两种类型结构对室内负荷的影响。
11. The direct root - finding method , as a conventional method for analyzing transient heat conduction of wall , will produce much inevitable problem such as root - missing and low efficiency . at all times , people quested for more efficient and simple method to analyze its dynamic heat conduction
    传统的分析墙体不稳定传热的方法?直接求根法存在失根、效率低下等诸多问题，一直以来，人们不断寻求更加简单、更高效率的方法来分析其动态传热过程。
12. This thesis analyzes the control principles of energy regulating ways in reefer units , compares the merits and demerits of these control methods in the outside working conditions of the changing burthen , and then puts forward the wvf , a entirely new energy saving regulative and control method . in addition , the thesis educes the heat response factors of container ' s round wall constructions by analyzing the dynamic heat transfer and adopting the method of heat response factors , and illustrates the refrigerated container ' s characteristics through an experiment on an empty refrigerated container
    本文通过分析目前冷藏集装箱的能量调节方式，比较了这些控制方式在箱外负荷变化的情况下的能量调节优缺点，在此基础上提出全新的变频能量调节控制方式：通过对冷藏箱围壁结构的动态传热性能的分析和热反应系数法的应用，得出了各围壁结构的热反应系数；通过冷藏箱空箱降温实验分析了制冷系统在空箱打冷时系统的特性。
13. It has issued residential buildings energy design standard for heating zone hot summer and cool winter zone and hot summer and warm winter zone . for heating zone , the method of effective thermal transmittance based steady heat transfer is used for the energy consume calculation , for hot summer and cool winter zone and hot summer and warm winter zone , the method based dynamic heat transfer must be used for the energy consume calculation
    对居住建筑，我国已颁布了包括采暖地区、夏热冬冷地区、夏热冬暖地区三个节能设计标准，对北方寒冷地区，用建立在稳态传热基础上的有效传热系数法进行能耗计算；对夏热冬冷地区、夏热冬暖地区，围护结构受室外动态温度和太阳辐射热的综合作用，明确应采用动态方法计算围护结构传热。
14. As the requirement of energy - saving and indoor environment gets higher and higher , variable flow technology are widely used in heating and air conditioning systems , namely by changing power or resistance to adjust the flow of the system 、 subcircuit and terminal equipment so as to match usually mutative dynamic heat ( cold ) load variation
    随着节能和室内环境要求的愈来愈高,供暖和空调系统广泛采用了变流量技术,即用改变动力或改变阻力的方式调节系统、支路以及末端设备的流量,使之与经常变化的动态热(冷)负荷相匹配。