Title :
Forward stall test: an alternate method of rotor and stator loading for temperature and vibration verification
Author :
Dymond, James H.
Author_Institution :
Gen. Electr. Canada Inc., Peterborough, Ont., Canada
Abstract :
The loading of induction machines for the purpose of determining the electrical and mechanical performance of a machine at rated temperature and load has presented problems for both manufacturers and users as machine sizes have outstripped the capacity of conventional dynamometers. A number of techniques has been developed that electrically load the stator and, indirectly, the rotor but not all users have been convinced that the rotor heating and mechanical vibration are the same as expected under a full mechanical and electrical load. This paper shows that the stator and rotor temperature rises are close to direct loading and that the vibration is similar for an alternate method of loading called the forward stall method. At the same time other methods are presented and compared
Keywords :
asynchronous machines; load (electric); machine testing; rotors; stators; thermal analysis; dynamometers; electrical performance; forward stall method; heating; induction machines; loading; mechanical performance; mechanical vibration; rated temperature; rotor; stator; temperature rises; testing; Chemical industry; Circuit testing; Equivalent circuits; Induction machines; Manufacturing; Petroleum; Rotors; Stators; Temperature; Vibrations;
Journal_Title :
Industry Applications, IEEE Transactions on
