As the flow available in this project defines that number of jets is equal to four, the proper turbine arrangement is of vertical shaft.

A vertical configuration with four jet can be studied in two different solutions to support the generator loads:

• Generator supported on a concrete barrel with a turbine shaft to connect the Pelton runner and transmit the torque.
• Generator supported on the turbine housing with generator shaft extension direct connecting to Pelton runner.

The second solution can be a challenging solution when we are dealing with generators considerably big due to rotation speed and power output. The mass of generator interacting directly to the metallic housing and inducing forces of static and especially dynamic nature shall be verified accurately to guarantee the safety operation.

Design challenges
Housing in a Pelton turbine is of fundamental importance, as it houses the runner and nozzles, as well as the deflector servomotor. The specific design of housing in NGOI PHAT supports the complete generator structure of approximately 90 t. At the bottom of the housing, a structure for levelling and anchoring is designed. On the internal surface of the structure, the hydraulic profile of the tested model is observed and there is a proper provision to deflect the water jet and prevent interference of water deviated and splash with the rotation of the runner. The shape of the housing is polygonal.

Even though housing will be embedded in concrete, which will contribute to the dampening of vibrations, conservatively it is not considered its influence in both the structural verification and the dynamic analysis.

Structural analysis
Based on design guidelines and references of executed projects the main structure is defined including waterways envelopment as well as ribbing and reinforcement around. Special design for the generator supporting structure is done. After the basic design is finalized the structural analysis is carried out. In this analysis the process of design optimization takes place.

The loading cases include generator total weight plus the maximum torque transmitted to the structure, forces from the jets in different combination, forces coming from the connection with distributor pipe and loads from deflector mechanism.

The structural analysis was performed using FEA software and the safety for operation of the structure from the static point of view is granted by comparing the deformation and stress level against the allowable values with its corresponding safety factors.

Modal analysis
The modal analysis was performed also using FEA software. The dynamic behaviour of the housing is checked through calculation of the relevant natural modes of vibration and comparison with exciting frequencies.

As main exciting frequencies in this project it may be assumed:

• Nominal speed: 428.6 rpm = 7.14 Hz
• Grid frequency: 50 Hz
• Nozzle frequency: 4 x 7.14 Hz = 28.6 Hz
• Any other frequency is above 50 Hz and thus was not considered for evaluation.

Natural modes of vibration:

• Considering the complete assembly of housing and generator structures, the natural frequencies were determined: