| 1. | Study on the measure of reducing condensate ' s supercooled degree
减少凝结水过冷度措施的研究 |
| 2. | Experimental study of the effects of ultrasound on the supercooling of water
超声波对水的过冷度影响的实验研究 |
| 3. | Subcooled temperature of close valve
关阀过冷度 |
| 4. | Subcooled temperature of open valve
开阀过冷度 |
| 5. | Minimum subcooled temperature
最小过冷度 |
| 6. | Maximum subcoold temperature
最大过冷度 |
| 7. | The capability of the kinetic model for the prediction of hydrate formation was tested with the measured data
模型考核部分考核了模型对压力、过冷度、抑制剂浓度的敏感性;对模型的预测结果进行了分析。 |
| 8. | The experiment shows that the cooling rates increased dramatically as the ejecting speeding and the sub - liquid nitrogen sub - coolings increased
实验研究表明随着小样品沉浸速度的增大、液氮过冷度的增加,冷却速率明显增加。 |
| 9. | In the third part , the factors that affected hydrate formation such as pressure , temperature and inhibitor concentration were analyzed in detail
结果分析部分讨论了压力、过冷度和抑制剂浓度等因素对水合物生成行为的影响。 |
| 10. | For solution with certain compositons , it behaved as the growing temperature tg . when tg . is too high , the film was hard to grown or did n ' t grow well
而对于确定r值的熔液,则主要表现为过冷度的选取,也即生长温度的选取。 |
