该模型相对于就近削减负荷模型,计算更简单。
The model makes the calculation simper than load-shedding strategy by neighbor.
切换您的设定温度从热热身可削减负荷的能源使用量的一半。
Switching your temperature setting from hot to warm can cut a load's energy use in half.
该方法核心是找到故障元件与削减负荷节点和系统的映射关系。
The core of this method is to find the mapping relations between fault component and load-shedding buses or the system.
为有效发挥自动低频减负荷装置的重要作用,应正确进行装置定值的整定。
For exerting the functions of the automatic under-frequency load-shedding device, setting for the device should be calculated correctly.
低频减负荷(UFLS)作为电力系统的第三道防线,是一种防止系统频率崩溃的有效手段。
Underfrequency Load Shedding (UFLS), which is the third defensive line of power system, is one of effective methods to mitigate the frequency collapses.
介绍一种自适应型低频减载装置的方案,它依据频率和频率的变化率,动态的确定减负荷装置的动作情况。
This paper presents an adaptive scheme that USES both frequency and rate-of-change of frequency measurements to dynamically set ULFS relays if more than one generation outage is experienced.
这里介绍一种自适应型低频减载装置的方案,它依据频率和频率的变化率,动态地确定减负荷装置的动作情况。
This paper presents an adaptive scheme that USES both frequency and rate of change of frequency measurements to dynamically set ULFS relays.
这里介绍一种自适应型低频减载装置的方案,它依据频率和频率的变化率,动态地确定减负荷装置的动作情况。
An adaptive scheme is presented which USES both frequency and its change rate to dynamically set the functioning condition of UFLS Thes. The s...
这里介绍一种自适应型低频减载装置的方案,它依据频率和频率的变化率,动态地确定减负荷装置的动作情况。
An adaptive scheme is presented which USES both frequency and its change rate to dynamically set the functioning condition of UFLS r...
均以个人最大吸氧量90 %功率为起点,分别进行每分递减30W、2 0W、10W至0负荷的3种不同方式的渐减负荷运动。
The three different decreasing work rates of 30W, 20W and 10W, respectively, were started from a work rate at 90%VO 2max.
均以个人最大吸氧量90 %功率为起点,分别进行每分递减30W、2 0W、10W至0负荷的3种不同方式的渐减负荷运动。
The three different decreasing work rates of 30W, 20W and 10W, respectively, were started from a work rate at 90%VO 2max.
应用推荐