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温度前沿
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  temperature front
     Some factors that influence the efficiency of the regenerative heat exchanger and the quantitative relationship between them are discussed by using the mathematical expression of the solid temperature distribution characteristic value σ 2 and of the heat exchanger efficiency derived from the analysis of the expanding of solid temperature front Thus,an important theoretical approach is given for the further investigation regarding the performance of regenerative heat exchanger,as well as for the opthmum design and the evaluation of the performance of existing heat exchangers
     利用热交换器内固体温度分布特征值σ2 的数学表达式和固体温度前沿扩展的分析得出的蓄热式热交换器效率的计算式,讨论了影响该热交换器效率的若干因素及定量关系,为蓄热式热交换器热工行为的进一步研究、优化设计方法的建立,以及现有蓄热式热交换器热工行为的评价,提供了理论依据。
短句来源
     According to the dispersion concentric model,the premise condition to keep the highest efficiency of the heat exchanger was established,based on the analysis of temperature front enlarging and the evaluation of the efficiency of heat exchanger.
     依据混合扩散模型 ,在热交换器温度前沿扩展分析和热交换器换热效率评价的基础上 ,建立了保证热交换器效率最高的前提条件〔1〕。
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  相似匹配句对
     T is temperature, ℃.
     T为温度,℃。
短句来源
     T-temperature, K;
     T—溶液温度,K;
短句来源
     Quench-Front Temperature Field Analysis Code for PWR Reflood
     PWR再淹没骤冷前沿温度场分析程序
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     Progress in Science
     科学前沿
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     EDA UPDATE
     EDA前沿
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  temperature front
Effect produced on sound propagation by an internal temperature front moving over the shelf
      
Space-frequency distribution of sound field intensity in the vicinity of the temperature front in shallow water
      
The sound field produced by a low-frequency (100-1000 Hz) point source in a shallow water region in the presence of the temperature front is considered.
      
In a real system the heating is nonuniform, and a second-order phase transition to a broken-symmetry phase occurs by propagation of a temperature front.
      
Determination of the heat transfer coefficient from the laws of constant-temperature front propagation
      
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Some factors that influence the efficiency of the regenerative heat exchanger and the quantitative relationship between them are discussed by using the mathematical expression of the solid temperature distribution characteristic value σ 2 and of the heat exchanger efficiency derived from the analysis of the expanding of solid temperature front Thus,an important theoretical approach is given for the further investigation regarding the performance of regenerative heat exchanger,as well as for the opthmum...

Some factors that influence the efficiency of the regenerative heat exchanger and the quantitative relationship between them are discussed by using the mathematical expression of the solid temperature distribution characteristic value σ 2 and of the heat exchanger efficiency derived from the analysis of the expanding of solid temperature front Thus,an important theoretical approach is given for the further investigation regarding the performance of regenerative heat exchanger,as well as for the opthmum design and the evaluation of the performance of existing heat exchangers

利用热交换器内固体温度分布特征值σ2 的数学表达式和固体温度前沿扩展的分析得出的蓄热式热交换器效率的计算式,讨论了影响该热交换器效率的若干因素及定量关系,为蓄热式热交换器热工行为的进一步研究、优化设计方法的建立,以及现有蓄热式热交换器热工行为的评价,提供了理论依据。

According to the dispersion concentric model,the premise condition to keep the highest efficiency of the heat exchanger was established,based on the analysis of temperature front enlarging and the evaluation of the efficiency of heat exchanger.On this condition,the structural parameter of the heat exchanger was calculated not according to the heat exchanging areas but directly according to the restriction condition to hold the highest efficiency of the heat exchanger.

依据混合扩散模型 ,在热交换器温度前沿扩展分析和热交换器换热效率评价的基础上 ,建立了保证热交换器效率最高的前提条件〔1〕。在此条件下 ,热交换器的结构参数不是由热交换面积求得 ,而是由保证换热效率最高的约束条件直接求得

 
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