发电机、电动机定子线圈温度测量。
变压器运行中线圈温度过高将影响变压器的安全运行和寿命。
Transformer coil in the operation of high temperature will affect the safe operation of transformers and life.
本文建立了一种能够计算大型自然油循环导向冷却结构变压器线圈温度场的方法。
This paper sets up a kind of method to calculate the temperature field of the winding in large natural circulation power transformer with oriented cooling structure.
针对发电机静子漏进油、碳粉、尘土,励磁机静子漏进尘土等物,励磁机静子线圈温度高等不良现象,提出改进方案,实施后效果良好。
Regarding bad condition of oil, carbon powder and dust enter into Generator stator and dust enter excitor stator and high temperature of the excitor stator coil.
它会测量不同深度海水的温度,将数据传到浮动线圈和上面的佩吉小姐。
It takes the ocean's temperature at various depths and relays the results to the floating spool and up to Miss Piggy.
对通电线圈的电流及环境温度进行测量的实验结果与理论分析相吻合。
The experimental results of measuring the current of a coil and the environmental temperature agree well with the theory.
当线圈电流增大时,等离子体密度和电子温度都随着增大。
Both the plasma density and the electron temperature increase as the coil current increases.
敏感线圈的热非互易性是引起光纤陀螺温度漂移的重要因素之一,因而人们多采用四极对称技术(QAD)绕制光纤线圈。
The thermal nonreciprocity in sensing coil is one of sources induced temperature drift in FOG , so the fiber loop is usually wound by quadrupole(QAD) symmetrical technique.
用金相显微镜对衔铁线圈骨架的裂纹进行分析。结果表明,由于锻造加热温度偏高,材料脆化导致裂纹形成。
The electromagnet coil former was analyzed by means of metallurgical microscope. The results shows that cracks results from excessive high temperature while casting and material embrittlement.
间隙传感器线圈电阻的温度漂移是导致传感器输出漂移的主要因素。
Temperature drift of gap sensor mainly results from sensor coil impedance drift.
因此监测运行中的变压器线圈热点温度是非常必要的。
Therefore monitoring operation in the transformer coil hot temperature is very necessary.
因为这种方法在反位线圈转动时间内执行测量,所以不受对温度依赖较大的电源与测量装置的影响。
Because this method performs the measurement within the flip coil rotation time, it is not affected by the temperature dependence in the power supplies and the measurement devices.
采用特殊的封装和安装技术,消除了因线圈绕组铜质漆包线的热胀冷缩所造成的温度与应变交叉敏感。
And with special packaging and installation, we eliminate the problem of cross-sensitive temperature and strain caused by expand with heat and contract with cold of coil winding.
在理论研究的基础上,讨论了线圈互换性的实现和温度补偿两个工业化问题。
On the basis of theory, two industrial problems are discussed: the realization of exchangeability and temperature compensation.
特别是在温热成形的环境中,会使线圈的工作温度升高,影响材料强度,进而加速线圈失效。
Especially in the warm electromagnetic forming environment, the work coils' temperature will affect the strength of the material, thereby accelerating the coils to failure.
然而锈皮在热轧板条厂卷期间在高温度被造形,因为锈在在室温的线圈的表面上被造形,这一个加工是所需。
This processing is required since rust is formed on the surface of the coils at room temperature whereas scales are formed at high temperature during rolling in Hot Strip Mill.
该方法处理的优劣,与内外壁面温度差、加热时间、线圈宽度、最大加热温度等因素有关。
HMT relates to temperature difference between inner and outer face of pipe, heating time, wide of heating wire, etc.
所谓变压器线圈热点是出现在线圈绝缘系统某部位的最高温度。
Transformer coil is the so-called hot spots in the coil insulation system of a site the maximum temperature.
由此,能够抑制各线圈(66)的温度上升,所以抑制了伴随着发热的各线圈(66)的电阻增大。
The rise in temperature of each coil (66) is restricted, an as a consequence, increase in resistance in each coil (66) is restricted.
将刻有温敏光栅的光纤缠入线圈绕组内,实现对线圈绕组内部温度的直接测量。
With temperature-sensitive fiber Bragg grating wrapped into the coil winding, we manage to measure the internal temperature of coil winding directly.
线圈绕制后浸漆处理,绝缘性能好,线圈发热温度低;
Impregnating coil winding system for handling, good insulation, coil heating temperature is low;
线圈绕制后浸漆处理,绝缘性能好,线圈发热温度低;
Impregnating coil winding system for handling, good insulation, coil heating temperature is low;
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