| 1. | The best match between cooling efficiency and power can be obtained by choosing a reasonable flow velocity
合理选择流速可以达到冷却效率与动力的最佳匹配。 |
| 2. | The liquid cooler with high cooling efficiency is the key techniques in high - average - power 2d - stackes package
对于高平均功率二维阵列封装,关键是高效液体冷却器技术。 |
| 3. | 1 . it is filter of cooling water circling system for removing impurity and dirt in water to improve cooling efficiency effectively
1 .冷却水循环系统中之傍路过滤设备,滤除水中之杂质污物,有效提升冷却效能。 |
| 4. | Over the life of the mold , corrosion in the cooling channels decreases cooling efficiency thus degrading part quality and increasing cycle time
超过模具生命的,冷却系统的腐蚀降低了冷却的效率,因此会降低产品的质量并且增加成型时间。 |
| 5. | A numerical calculation model of the cooling efficiency of the cooler was built and the numerical simulation was carried out by ansys finite element program
为此,建立了液体冷却器散热效率数值计算模型,并采用ansys有限元程序进行了数值计算,优化了冷却器结构参数。 |
| 6. | In another hand , the desiccant cooling efficiency of m4 - 0132 is 1 . 9 times that of silica gel and 2 . 2 times of 13x molecular sieve at the regeneration temperature of 100c
提出以吡啶为探摘要针分子,用tg一dta一dtg分析法,研究复合吸附剂的复合现象和复合机理的新思路。 |
| 7. | The adsorption refrigeration volume and cooling efficiency are : 315kj / kg ~ 909kj / kg and 79kj / kg h ~ 227kj / kg h , respectively . they are 2 . 2 - 5 . 9 times that of activated carbon - ethanol
M4 - 0132 ?水和m1 - 0001 ?乙醇是用于以太阳能和低温热能驱动的吸附制冷过程的良好吸附工质对。 |
| 8. | Through experimental confirmation , it can be found that when outside air temperature is above 30 , using this air conditioning system can makes temperature drop reach above 5 ~ 6 in the summer and the indirect evaporative cooling efficiency may reach about 60 % ~ 65 %
整个系统所需能耗仅为风机和水泵的能耗,而无需其他外部动力,是一种新型的节能空调系统。 |
| 9. | Under the precondition that the radiator has enough cooling efficiency and intension , it is the necessary trend that the volume is less , the weight is lighter , the tube wall and belt materials are thinner , and the cooling efficiency is higher
在保证散热器具有足够散热能力和强度的前提下,体积更小、重量更轻、管壁及带材更簿、散热效率更高成了散热器发展的必然趋势。 |
| 10. | The characteristic of the forming of shock wave in the tube and the influence of the shock wave intensity on cooling effect was also analyzed in working time . the reason why the cooling efficiency was lower in low rotate speed and has no change in high rotate speed was revealed
分析了振荡管实际工作时管内激波形成特点及激波强度对冷效应的影响,指出了实际压力波制冷机在低转速下运行时制冷效率很低而在高转速下制冷效率变化不大的内在原因。 |
