Title :
Influence of Rotation on Rotor Fluid and Temperature Distribution in a Large Air-Cooled Hydrogenerator
Author :
Li Weili ; Guan Chunwei ; Chen Yuhong
Author_Institution :
Beijing Jiaotong Univ., Beijing, China
Abstract :
In the premise of the measured circulation flow rate, the conjugate heat transfer in turbulent flow within one coupled rotor model of a 250-MW hydrogenerator was calculated. The flow rate changes of the fluid in the support, yoke ducts, pole gap, and the air gap between stator and rotor were researched using the finite volume method, also their effects on the operating rotor temperature. The analysis shows that it can accurately simulate the fluid field of the rotor ventilation system, which will provide theory basis for the design and improvement of the generator ventilation system. The calculated average temperature of the excitation winding is compared with its measured value, and the error is less than 1%. Thus, the results can be used to simulate temperatures of the rotor which cannot be easily measured.
Keywords :
air gaps; finite volume methods; heat transfer; hydroelectric generators; machine windings; rotors; temperature distribution; turbulence; ventilation; air gap; conjugate heat transfer; coupled rotor model; excitation winding; finite volume method; fluid field simulation; generator ventilation system; large air-cooled hydrogenerator; measured circulation flow rate; operating rotor temperature; pole gap; power 250 MW; rotor fluid; rotor ventilation system; temperature 293 K to 298 K; temperature distribution; turbulent flow; yoke ducts; Ducts; Heat transfer; Rotors; Temperature distribution; Temperature measurement; Ventilation; Windings; Fluid field; hydrogenerator; rotor rotation; temperature field;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2012.2220852
