介绍了温度测量及调制吸收光谱技术原理,分析了调制幅度对气体温度测量的影响。
Temperature measurement principle and modulation absorption spectroscopy were introduced, and the influence of modulation amplitude on gas temperature measurement was analyzed.
在模拟火灾试验中,除了对喷头的响应时间进行测量外,还对喷头附近的气体流速、气体温度以及试验室中部吊顶层的气体静压进行了测量。
In addition to sprinkler response times, gas velocity and gas temperature near the sprinklers were measured in all tests, along with the static gas pressure at the ceiling level in the room center.
作为一个应用实例,测试了某截面上的气体温度分布,并与热电偶测量的值进行了比较。
As an example, the method has been used to reconstruct the hot gas temperature fields, and the results are compared with thermocouple measurements.
气体温度传感器通过改变电阻来测量空气温度,并将信息发送到机载计算机上。该计算机将使用这些信息和其他输入值计算燃料提供的正确数额。
Measures air temperature through changing resistance and sends this information to the onboard computer. The computer USES this and other inputs to calculate the correct amount of fuel delivered.
取而代之的作法是用理想气体温度计精确地测量分布于较宽温度范围内的几个定点的温度值。
What is done instead is to use the ideal-gas thermometer to determine accurate values for several fixed points that cover a wide temperature range.
显然,气体温度计既能定义温度,也能测量温度。
It is obvious that the gas thermometer should be able to measure as well as define temperature.
有机玻璃模型中主应力和的测量,二维气体温度场和轴对称气体温度场的测量,三维物体表面形状和三维位移场的测量。
The research involves the measurements of the sum of principal stresses in a perspex model, gas temperature fields in 2D and axisymmetric cases, 3D surface shape and 3D displacement field.
有机玻璃模型中主应力和的测量,二维气体温度场和轴对称气体温度场的测量,三维物体表面形状和三维位移场的测量。
The research involves the measurements of the sum of principal stresses in a perspex model, gas temperature fields in 2D and axisymmetric cases, 3D surface shape and 3D displacement field.
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