The temperature rise in the coolant then becomes a function of coolant flow rate.
首先是冷却剂的温度升高,然后温度随冷却剂流动速率变化。
In this article, the main influencing factors on condensation heat transfer include air flow rate, coolant flow rate, coolant inlet temperature and mixed gas velocity.
在本课题中,影响传热过程的因素主要有空气含量、冷却水流量、冷却水温度及混合气气速。
The results show that heaving has less effect upon the primary Loop's coolant flow rate and PWR output power in case of forced circulation but strongly influences natural circulation ability.
结果表明:起伏对强制循环下一回路冷却剂的流量和反应堆输出功率的影响较小,而对自然循环能力的影响很大。
Then using this method, influence of gas wall material, gas wall thickness and flow rate of coolant on regenerative cooling of thrust chamber was investigated. The results were satisfactory.
然后使用这种方法研究了气壁材料、气壁厚度和冷却液流量对推力室再生冷却的影响,获得了比较满意的结果。
Changes in the coolant temperature and flow rate had smaller effects than that heat side done.
冷液流率的提高引起的膜通量变化明显小于热侧液流率提高对膜通量的影响。
Changes in the coolant temperature and flow rate had smaller effects than that heat side done.
冷液流率的提高引起的膜通量变化明显小于热侧液流率提高对膜通量的影响。
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