太阳振荡的湍动随机激发及激发源的位置都已得到研究,不过现在问题还未完全解决。
The stochastic excitation mechanism by turbulence and the location of the excitation sources are well studied, but not completely understood.
太阳振荡研究现已成为研究太阳内部性质的新手段,也成为检验太阳模型构造时输入物理参量的最重要工具。
Helioseismology has become a new tool for the study of the solar interior as well as one of the most important devices to determine the quality of the the input physics that enters the solar models.
本文研究太阳从可见光至近红外连续谱中的五分钟振荡。
The five-minute oscillations in the solar continuum arc analyzed in this paper.
从谱分析结果判断,年降水量具有20年的主振荡周期和3.3年、2.2年的次周期,并出现与太阳黑子变化反位相的特征。
Spectrum analysis is also conducted with the result that the significant period is about 20 years and the sub-period are 2.2 and 3.3 years.
从工程实际的角度出发,通过分析传统太阳能集热器的优势与不足,探索将振荡热管应用在太阳能集热器上的可行性。
Moreover, from the engineering point of view , exploring the feasible application of oscillating heat pipe solar collectors though analysis of the traditional collector's advantages and weaknesses.
一种用振荡流热管做吸热内管的太阳能真空玻璃集热管,属于太阳能集热器领域。
A vacuum heat collector of solar energy USES the oscillating flow tube as the heat collecting tube.
由于进入太阳能集热器阵列的水直接来自吸附式制冷机组,太阳能集热器阵列的进出口水温周期性地振荡;
The water temperatures of the inlet and the outlet of the solar collector array cyclically swing since the water entering the solar collector array comes directly from the adsorption chillers.
所述精确定时型太阳能光伏控制器包括微处理器、开关电路、晶体振荡器、定时器。
The accurate timing-type solar photovoltaic controller comprises a microprocessor, a switching circuit, a crystal oscillator and a timer.
所述精确定时型太阳能光伏控制器包括微处理器、开关电路、晶体振荡器、定时器。
The accurate timing-type solar photovoltaic controller comprises a microprocessor, a switching circuit, a crystal oscillator and a timer.
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