转桨式水轮机

基于模糊神经网络的转桨式水轮机数字协联

Digital Cams for Kaplan Turbine Based on Fuzzy CMAC Neural Network

转桨式水轮机的协联结构对调节品质的影响

Effect of Cam Structure of Kaplan Turbine on the Regulating Quality

本文针对转桨式水轮机在开发低水头水力资源中的应用，提出了一种基于PCC的步进式水轮机双调整调速器。

A PCC based stepping motor driven dual control governor for Kaplan turbine is presented in this paper .

本文针对转桨式水轮机的两种协联结构，在建立其调节系统数学模型之基础上，通过计算机仿真求出了在ITAE指标下系统的最佳调节参数和调节过程。

According to the two on-cam structures , the mathematical models of regulating system of Kaplan turbine have been established in this paper . The transients of the regulating system have been simulated by computer , and the optimum regulating parameters under ITAE criteria are obtained .

转桨式水轮机机械凸轮设计的讨论

The Discussion on Design of Mechanical Copying Cam for Kaplan Turbine

转桨式水轮机转轮叶片密封结构改进

The Improvement of the Sealing Structure for Runner Blade of Kaplan Turbine

转桨式水轮机受油器故障特殊处理

Special handling of oil-supply head fault on Kaplan turbine

转桨式水轮机转轮叶片离散调节系统稳定性分析

Stability of Discrete Regulating System of Kaplan Runner Blades

转桨式水轮机叶片密封装置浅说

Seal Facilities of Adjustable Blades of Kaplan Turbine

转桨式水轮机数字控制系统的稳定性

Stability of Digital Control System of Kaplan Turbine

转桨式水轮机的调节特性和稳定性分析

Governing Features and Stability Analysis for Kaplan Turbines

协联结构对转桨式水轮机数字控制系统稳定性的影响

Influence of On-Cam Structure on the Stability of Digital Control System of Kaplan Turbine

用8031单片机构成转桨式水轮机最优控制装置

A 8031-Based Optimizing Controller for Kaplan Turbines

转桨式水轮机轮叶导叶并列动作时离散调节系统的稳定性

Stability of discrete regulating system of Kaplan turbine considering the runner blade in parallel with gate

本文从数学上证明了目前研制的转桨式水轮机数字协联装置所采用的三种数学模型是等价的，并提出了一种新数学模型。

Three forms of mathematical models that adopted in the digital cam for Kaplan turbine are identical .

随着水力资源的开发，转桨式水轮机叶片日趋增大。

With the development of waterpower resources , the dimension of runner blade of Kaplan turbine is getting larger and larger .

本文分析了转桨式水轮机采用两种不同协联结构时，调速系统的稳态误差及稳态误差与调差率的关系。

The static errors and their relationship with the ep of the governing system for Kaplan turbines , with two different of on-cam structures are analysed in this paper .