AbstractThe parts of hydro-turbine and its stability is often damaged and affected by the vibration and this often results in great loss. The reason of vibration is various. Based on a real machine in laboratory, this paper uses ANSYS finite element software to model the main shaft system in the hydro-turbine generating unit. On this basis, it takes the modal analysis and calculates the critical speed of rotation. The results can provide a reference for dynamic analysis and a foundation for the design or improvement
The working principle of a large hydropower station is to guide the high-pressure water flow to impa...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
Damage to the rotor blade of a steam turbine is a relatively common problem and is one of the leadin...
AbstractThe parts of hydro-turbine and its stability is often damaged and affected by the vibration ...
In almost all production of electricity the rotating machines serves as an important part of the ene...
A suitable dynamic model of rotor system is of great significance not only for supplying knowledge o...
In almost all production of electricity the rotating machines serves as an important part of the ene...
Hydraulic instability is a complex factor causing the vibration of hydro-turbine generator shafting ...
yesTraditional rotor dynamics mainly focuses on the steady- state behavior of the rotor and shafting...
The shafting vibration for the Hydraulic-Turbine Generator Unit (HGU) inevitably affects the safe an...
Because a pump-turbine mainly undertakes the role of energy conversion and pumped storage in the fie...
Rotor dynamics is a field under mechanics. Mainly deals with the vibration of rotating structures. I...
In a sudden load increasing process (SLIP), the hydroelectric generating system (HGS) experiences a ...
Abstract – Appropriate modeling of hydro system including penstock, hydro-turbine and the speed gov...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
The working principle of a large hydropower station is to guide the high-pressure water flow to impa...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
Damage to the rotor blade of a steam turbine is a relatively common problem and is one of the leadin...
AbstractThe parts of hydro-turbine and its stability is often damaged and affected by the vibration ...
In almost all production of electricity the rotating machines serves as an important part of the ene...
A suitable dynamic model of rotor system is of great significance not only for supplying knowledge o...
In almost all production of electricity the rotating machines serves as an important part of the ene...
Hydraulic instability is a complex factor causing the vibration of hydro-turbine generator shafting ...
yesTraditional rotor dynamics mainly focuses on the steady- state behavior of the rotor and shafting...
The shafting vibration for the Hydraulic-Turbine Generator Unit (HGU) inevitably affects the safe an...
Because a pump-turbine mainly undertakes the role of energy conversion and pumped storage in the fie...
Rotor dynamics is a field under mechanics. Mainly deals with the vibration of rotating structures. I...
In a sudden load increasing process (SLIP), the hydroelectric generating system (HGS) experiences a ...
Abstract – Appropriate modeling of hydro system including penstock, hydro-turbine and the speed gov...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
The working principle of a large hydropower station is to guide the high-pressure water flow to impa...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
Damage to the rotor blade of a steam turbine is a relatively common problem and is one of the leadin...