| 1. | Approaching the variable - loading operation of model kdn - 3000 nitrogen plant 3000型制氮装置变负荷操作探讨 |
| 2. | Tf _ the allowed torque according to tired intensity in changeful load 在交变负荷下按疲劳强度所允许的转矩。 |
| 3. | Experimental investigation on partial load characteristics of gas engine - driven heat pump 燃气机热泵变负荷特性的试验研究 |
| 4. | Alternating exchange load 交变负荷 |
| 5. | At the same time , the operating intensity of boiler operators during the time of varying the unit ' s load is greatly elleviated , enhancing the automatization level of boiler operation 同时,大大降低了锅炉运行人员在机组变负荷时的操作强度,提高了锅炉运行的自动化水平。 |
| 6. | Firstly , the spontaneous drop of slag on walltube at the time of boiler load shift is researched and it is the innovative research on the effect on the slagging of boiler operation 首先探索锅炉变负荷运行时炉膛自然掉渣的机理,创新性地开展锅炉运行条件对炉膛灰渣的影响。 |
| 7. | Theoretical analysis and simulation results show that the controlled system has stronger robustness and high - speed for constant tension control , and it has better control efficiency even under bigger vary loads 理论分析和仿真结果都表明该系统对带钢恒张力控制具有很强的鲁棒性和实时性,即使在变工况下(大范围变负荷下)也保持了良好的控制性能。 |
| 8. | The stress of slag rests with the structure , physical characteristic , and heat transfer status of slag . taking no . 1 boiler of beilun thermal power plant as example , the walltube thermal stress and the destroying impact on slag are researched 得出锅炉大范围变负荷运行时热应力能够超过渣的强度极限引起渣结构破坏的结论,渣层的热应力主要取决于渣的结构、物理特性和传热状态。 |
| 9. | This paper intented to analyze the current ways which determined the training intensity of explosive force from the aspect of biomechanics , meanwhile brought up the variable load way and the corresponding training pattern to provide reference for sports training 主要从生物力学角度,对当前几种确定爆发力训练强度的方法进行分析,并提出变负荷法以及由此导出的变负荷训练模式,以求为运动训练提供参考。 |
| 10. | Rotors and cylinders are the most important components in the steam turbine , and the dependability of them directly influences the operation and safe of a power plant , so the life management of the steam turbine mainly aims at its rotors 汽轮机在启动、停机或变负荷运行时,承受很大的热应力,热变形。转子和汽缸是汽轮机的关键部件,其可靠性直接影响电厂的生产安全,是汽轮机寿命管理的主要监控对象。 |