建立了水电站厂内自动发电控制的数学模型,提出一种针对多喷嘴水斗式水轮机组的自动发电控制模型求解方法。
A mathematical model of automatic generation control for hydroelectric station is established, and a solution method to AGC mathematical model on multi-nozzle scoop-type turbines is proposed.
摘要建立了水电站厂内自动发电控制的数学模型,提出一种针对多喷嘴水斗式水轮机组的自动发电控制模型求解方法。
A mathematical model of automatic generation control for hydroelectric station is established, and a solution method to AGC mathematical model on multi-nozzle scoop-type turbines is proposed.
通过计算实例。得出与水斗数目相关的要素,使理论水斗数与实际水斗数更趋一致。
By calculating actual examples, a correlation factor for bucket Numbers is obtained which can make theoretic bucket Numbers approach practical ones.
采用熔模、陶瓷型铸造工艺来制造小型水轮机叶片和水斗是一种最佳的选择。
Investment cast and ceram cast are best technology for the fabrication blade and bucket of small turbine.
本实用新型公开了一种水斗防溢装置,它包含有落水头、落水接头、落水管、闷头。
The utility model discloses an anti-overflow device for a water bucket, which comprises a drain head, a drain joint, a drain pipe, and a baffle.
本实用新型公开了一种水斗防溢装置,它包含有落水头、落水接头、落水管、闷头。
The utility model discloses an anti-overflow device for a water bucket, which comprises a drain head, a drain joint, a drain pipe, and a baffle.
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