This process involves a compressor and with it associated thermal, mechanical and pumping losses, which affect fuel consumption.
这一过程涉及压缩机和与之相关的热,机械和抽水的损失,影响燃料的消耗。
The drop of pumping temperature is increased with thermal dispersion intensifying.
随着热弥散的加强,抽水温度降加大。
The output parameters such as beam divergence angle in far-field output power of high power solid state lasers are variable due to thermal effect of optical pumping.
由于光泵浦热效应,高功率固体激光器的输出参数如光束远场发散角、输出功率等会发生变化。
Based on our investigation results, some key problems and techniques concerning slab lasers, such as the thermal effects, pumping cavity and resonators, are analyzed physically.
结合作者部分工作,对板条激光器的热效应、聚光器和光学谐振腔等关键问题和技术进行了物理分析。
At present, heavy oil or extra heavy oil is produced by means of thermal oil recovery or rod pumping, which are low efficient, energy consuming and short in production life.
目前,稠油或特稠油一般采用热力及有杆泵进行开采,这种生产方式效率低、能源消耗大,且设备运行寿命短。
Analytic solutions of temperature and stress distributions in condition of CW and pulse pumping are given. We have analyzed and discussed the thermal distortion in the slab.
给出了板状介质在重复率泵浦和连续泵浦情况下的温度分布和应力状态的解析解,对板的热效应进行了分析与讨论。
It should satisfy dynamic stability, thermal stability, switched-current and switch up-down selectivity in a short circuit while selecting the pumping station using electricity system equipments.
选用站用电系统设备时应满足短路时的动、热稳定,开断电流,开关上、下级的选择性等要求。
With the new pumping scheme for high power fiber laser, the fiber's pumped end can be cooled greatly, and the thermal problem of the fiber's pumped end can be solved.
该泵浦形式能对光纤的泵浦端进行了很好的冷却,可有效的解决大功率光纤激光器的端面热损伤问题。
The influence of dynamic thermal effect induced by optical pumping of YAG crystal rod in a pulsed solid laser on the wave front of the output laser beam is studied in this paper.
本文研究了脉冲固体激光器的YAG激光棒光泵浦动态热效应对激光波面的影响。
Compared with results of aquifer-thermal-conductivity 's-multiple model, results of velocity 's-one-power model show that the drop of pumping temperature is greater and ter is smaller.
速度一次方模型的计算结果较含水层滞止导热系数倍数模型的计算结果的抽水温度降大,热影响范围小。
The influences of the thermal lens effect on the oscillation beam radius and diffraction loss can be reduced by increasing the proportion of the end-pumping power.
提高端面抽运功率占有率,可在一定程度上减小热透镜效应对振荡光束尺寸和衍射损耗的影响。
The influences of the thermal lens effect on the oscillation beam radius and diffraction loss can be reduced by increasing the proportion of the end-pumping power.
提高端面抽运功率占有率,可在一定程度上减小热透镜效应对振荡光束尺寸和衍射损耗的影响。
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