1310-2012 IEEE Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Rotating Machines

active - Revision of 1310-1996
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Organization: IEEE - Institute of Electrical and Electronics Engineers, Inc.
Publication Date: 21 May 2012
Status: active
Page(s): 1 - 30
ICS Code (Generators): 29.160.20
ISBN (Online): 978-0-7381-7270-5
DOI: 10.1109/IEEESTD.2012.6204190

Abstracts

Standard

This procedure is intended for form-wound bars/coils for rotating machines rated 10 kV or more at 50 Hz or 60 Hz that are subjected to many transitions from no-load to full-load current during normal operations, and where rapid load variations are typical. Only the thermal cyclic degradation within the groundwall insulation and/or the conductor package and delamination of the groundwall insulation from the conductor are addressed by this test. The procedure is applicable to indirectly-cooled machine types such as:-- combustion turbine generators-- pumped storage or peaking duty hydrogenerators-- synchronous condensers-- cyclic duty water pump motorsVarious pass/fail criteria are presented, and the ones that apply in a specific circumstance must be agreed between user and manufacturer prior to commencement of testing

Document History

1310-1996 - IEEE Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Generators
May 23, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A test method to determine the relative ablility of high-voltage, form-wound stator bars and coils of large rotating machines to resist deterioration due to rapid heating and cooling resulting from machine load cycling is described.

1310-2012 - IEEE Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Rotating Machines - Redline
May 21, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This procedure is intended for form-wound bars/coils for rotating machines rated 10 kV or more at 50 Hz or 60 Hz that are subjected to many transitions from no-load to full-load current during normal operations, and where rapid load variations are typical. Only the thermal cyclic degradation within ...

1310-2012 - IEEE Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Rotating Machines
May 21, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This procedure is intended for form-wound bars/coils for rotating machines rated 10 kV or more at 50 Hz or 60 Hz that are subjected to many transitions from no-load to full-load current during normal operations, and where rapid load variations are typical. Only the thermal cyclic degradation within ...

P1310_D4, Oct 2011 - IEEE Draft Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Rotating Machines
October 20, 2011 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This procedure is intended for form-wound bars/coils for rotating machines rated 10 kV or more at 50 Hz or 60 Hz that are subjected to many transitions from no-load to full-load current during normal operations, and where rapid load variations are typical. Only the thermal cyclic degradation within ...

P1310.Rev 3/D2, Feb 2011 - IEEE Draft Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Rotating Machines
March 18, 2011 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This procedure is intended for form-wound bars/coils for rotating machines rated 10 kV or more at 50 Hz or 60 Hz that are subjected to many transitions from no-load to full-load current during normal operations, and where rapid load variations are typical. Only the thermal cyclic degradation within ...

1310-1996 - IEEE Trial Use Recommended Practice for Thermal Cycle Testing of Form-Wound Stator Bars and Coils for Large Generators
January 1, 1996 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

In this IEEE standard a test method to determine the relative ability of high-voltage, form-wound stator bars and coils of large rotating machines to resist deterioration due to rapid heating and cooling resulting from machine load cycling is described. This procedure is intended for bars/coils for ...

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