G706 - Advanced Generator Maintenance Seminar

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4.5 days - 2.9 ADVANCED Generator Maintenance & Reliability Seminar


Course Dates Download PDF 
USD 2,895.00


When: January 7-11, 2019
Where: Tampa Bay, FL
US$2895

This 4.5 day seminar was developed out of the recognition of the need for plant personnel to better cope with generator maintenance issues. In the total of 100+ years of experience of our presenters, we have seen too many major projects being undertaken that could have been avoided! Or too many plants have invested too many $$$ only to not realize a return due to the selection of the wrong materials, or to errors in reverse engineering, or not understanding the sequence of steps associated with a particular activity. It is the belief of all our presenters that we all gain by the presentation of this seminar (that is why they volunteered to make these presentations). The participant gains as he/she gains honest technical information. We gain as we know the participant will remember who provided this honest presentation when it comes time where outside engineering or training services are needed. We all benefit. Read more, and see you at the next seminar.

OBJECTIVES
  1. Visual Inspections:  Learn what to look for when conducting a visual inspection of the generator stator and rotors. 
  2. Electrical Tests:  Learn the purpose of conducting various generator stator/rotor electrical tests, when they should (or should not) be conducted, and how to better evaluate the collected data.
  3. Stator Re-Wedge:  Learn how to determine when stator re-wedge is needed, as well as which wedges to use and what wedge materials might be preferred (and why).
  4. Stator Core Looseness:  Learn how to determine if your stator core is loose, when the tests are to be performed, and how to tighten.
  5. Liquid Cooled Stator Bars:  Learn to evaluate liquid cooled stator bar data, determine the root cause, how to detect, how to evaluate, and what type of corrective actions may be needed, given the evaluation of the data collected.
  6. Generator Lead Boxes:  Learn about trouble areas in the generator lead boxes and tests to be performed.
  7. Collector Rings:  Learn how collector rings can be a source of operating problems and how specific visual and electrical tests may be performed to evaluate these rings.
  8. Flux Probe:  Learn the purpose of the flux probe, how the flux probe is installed, how data is collected and analyzed.
  9. Partial Discharge Analysis:  Learn how Partial Discharge works, how to collect data, and what to do with the data collected.
  10. Generator Condition Monitor: Learn how the Generator Condition Monitor works, what can be done to ensure the GCM continues to provide quality information to troubleshoot generator operational problems.
  11. Operational Practices:  Some generator problems are generated due to operational practices.  These practices (where they have too often gone wrong) are discussed from both a theoretical and a practical aspect.
  12. Generator Vibration:  There are a few vibration / balance issues that are peculiar to the generator.  Learn what these are and how to recognize and evaluate the recorded data.
  13. Generator Auxiliary Systems:  Learn what generator auxiliary systems maintenance issues are and what can be done to minimize the impact of these problems.
  14. Generator Operational Events:  Given a major generator event, learn the major risks associated with those events, relay actions, things to investigate, and actions to take. 
 
 
SEMINAR1
Presentation by Jamie Clark
WHO SHOULD ATTEND
This seminar has been designed for Maintenance Superintendents, Supervisors, Engineers, and others with responsibility for generator maintenance.  Attendance will provide the attendee with a thorough understanding of design, operations, and maintenance of generators.  This seminar is for those who want serious discussion of their generating units!
 
 
 
In our first seminar (July 2003) one of the participants, an engineer from a nuclear power plant in the Midwest, made a statement that this investment saved him (his company) hundreds of thousands of dollars!  Why?  He learned how to avoid a major error that may have otherwise been made.  Learn one significant item and the payoff could be phenomenal.  This is the type of person we hope attends this seminar.
WHY ATTEND THIS SEMINAR?
  • Make better replace/repair/reuse decisions. This is a topic of discussion that continues throughout the 3.5-day seminar. Evaluation includes a thorough understanding of mechanical integrity, the selection and performance of electrical tests, evaluation of materials, and assembly.
    SEMINAR2
    Mike Bresney’s station at the “Interactive Group Session”
  • Get faulty equipment properly repaired.   We've heard horror stories that include the performance of a complete rewind (at what cost?) only to experience short life of components due to the incorrect selection or installation of materials.  In this seminar we address these issues.  A complete rewind may OR may not be the correction action to take.  It certainly is the easiest decision (from a technical perspective) and is, by far the most expensive.  More, better technical evaluation might avoid a costly error.
  • Perform and analyze generator electrical tests safely and effectively. What is the purpose of any single electrical test and when should it be performed?    This is a major consideration.  We discuss the value of each electrical test, the sequence that these tests should be performed (this is a major topic too often misunderstood).
  • Manage generator repair projects to your benefit.   Manage cost.  Do so by writing quality contract (bid) specifications.  Do so by selecting proper materials.  Do so by carefully managing the environment under which the outage is performed.  Do so by evaluating data.  Do so by carefully analyzing all variables.  In this seminar, experts discuss these topics and More.
SEMINAR3
Harold Parker demonstrating Learning-Docs during the “Interactive Group Session”
2019 topical outline (minor changes May occur)

 

Monday januaryn 7,2019
 
0700-0800               Registration
 
0800-0900               Introductions
 
0900-1000               Generator Construction Overview
 
1000-1020               Break
 
1020-1100               Stator Test and Inspection Recommendations
 
1100-1200               Stator Visual Inspections
 
1200-1300               Lunch
 
1300-1400               Stator Electrical Testing
 
1400-1500               Stator Core Tightening & Repair
 
1500-1520               Break
 
1520-1600               Stator Winding Vibration Sensors
 
1600-1700               Stator Inspection – Case Study
 
1800-                       Get Acquainted Dinner & Open Bar
 
 
 
Tuesday, January 8, 2019
 
0800-0900               Stator Re-Wedge
 
0900-1000               Stator Bar Manufacturing
 
1000-1015               Break
 
1015-1115               Stator / Field Insulation Materials
 
1115-1200               Stator Winding Partial Discharge Analysis
 
1200-1300               Lunch
 
1300-1400               Use of Stator Winding Vibration Sensors
 
1400-1500               Generator Condition Monitoring & Tagging
 
1500-1520               Break
 
1520-1700               Stator Rewind Case Study
 
 
 
Wednesday, January 9, 2019
 
0800-0900               Liquid Cooled Machine Testing – Leak ID & Repairs
 
0900-1000               Cooling Water Chemistry Problems & Solutions
 
1000-1020               Break
 
1020-1200               Field Visual Inspection & Electrical Testing
 
1200-1300               Lunch
 
1300-1400               Field Dovetail Preventative Maintenance
 
1400-1500               Flux Probe System
 
1500-1520               Break
 
1520-1600               Generator Contamination
 
1600-1700               Field Rewind / Repair Case Study
 
 
 
Thursday, January 10, 2019
 
0800-1000               Generator Protection
 
1000-1020               Break
 
1020-1200               Generator Vibration Analysis & Actions
 
1200-1300               Lunch
 
1300-1400               H2 Gas Dryer and Fast Gas Purging
 
1400-1700               Interactive Group Session
 
 
 
Friday, January 11, 2019
 
0800-1000               Generator Return to Service & Operations
 
1000-1020               Break
 
1020-1100               Final Discussion & Wrap-Up



 

 

OBJECTIVES

1.        Visual Inspections:  Learn what to look for when conducting a visual inspection of the generator stator and rotors. 

2.        Electrical Tests:  Learn the purpose of conducting various generator stator/rotor electrical tests, when they should (or should not) be conducted, and how to better evaluate the collected data.

3.        Stator Re-Wedge:  Learn how to determine when stator re-wedge is needed, as well as which wedges to use and what wedge materials might be preferred (and why).

4.        Stator Core Looseness:  Learn how to determine if your stator core is loose, when the tests are to be performed, and how to tighten.

5.        Liquid Cooled Stator Bars:  Learn to evaluate liquid cooled stator bar data, determine the root cause, how to detect, how to evaluate, and what type of corrective actions may be needed, given the evaluation of the data collected.

6.        Generator Lead Boxes:  Learn about trouble areas in the generator lead boxes and tests to be performed.

7.        Collector Rings:  Learn how collector rings can be a source of operating problems and how specific visual and electrical tests may be performed to evaluate these rings. 

8.        Flux Probe:  Learn the purpose of the flux probe, how the flux probe is installed, how data is collected and analyzed.

9.        Partial Discharge Analysis:  Learn how Partial Discharge works, how to collect data, and what to do with the data collected.

10.     Generator Condition Monitor: Learn how the Generator Condition Monitor works, what can be done to ensure the GCM continues to provide quality information to troubleshoot generator operational problems.

11.     Operational Practices:  Some generator problems are generated due to operational practices.  These practices (where they have too often gone wrong) are discussed from both a theoretical and a practical aspect.

12.     Generator Vibration:  There are a few vibration / balance issues that are peculiar to the generator.  Learn what these are and how to recognize and evaluate the recorded data.

13.     Generator Auxiliary Systems:  Learn what generator auxiliary systems maintenance issues are and what can be done to minimize the impact of these problems.

14.     Generator Operational Events:  Given a major generator event, learn the major risks associated with those events, relay actions, things to investigate, and actions to take.