Summary
Read more on ELECTRASubstation knowledge transfer is becoming critical because of retirements, changing technology, hiring restrictions, and increased project assignments. This Technical Brochure will explore the methods which can be implemented by utilities and engineering consultants to transfer substation knowledge from seasoned to less experienced engineers and technicians. The Technical Brochure also investigates substation knowledge transfer from the perspective of millennial and gen Z engineers.
Table of content
1. Introduction
1.1. Summary of Technical Brochure content
2. Knowledge Transfer Needs Identification
2.1. What is Essential At-Risk Knowledge?
2.2. A model to define tacit and explicit knowledge
2.3. Identifying essential at-risk knowledge
2.4. Identifying knowledge owners
2.5. Identifying knowledge recipients
2.6. Identifying knowledge transfer timelines
2.7. Prioritizing knowledge transfer
2.8. Knowledge transfer culture
2.9. Types of substation knowledge transfer
2.10. Next steps
3. Overview of Survey Results and 2022 Workshop
3.1. Survey
3.2. 2022 Paris Session workshop
4. Knowledge Transfer
4.1. People
4.2. Process
4.3. Technology
5. Opinions From NGN Members
5.1. Introduction
5.2. Knowledge content
5.3. Knowledge transfer methods & processes
5.4. Tools & technology
6. Conclusion
6.1. Problem statement
6.2. Key elements of knowledge transfer
6.3. Evaluating the effectiveness of knowledge transfer
6.4. Mentoring
6.5. College course content and interfaces with industry
6.6. Technology
6.7. Final thoughts regarding substation knowledge transfer
7. Case Studies
7.1. Onboarding graduates at a European electric utility
7.2. Use of lessons learned process to transfer substation knowledge
7.3. Growth of a substation consultant
7.4. Transferring knowledge through CIGRE participation and leadership
Appendix A Definitions, Abbreviations and Symbols
A.1. CIGRE terms
A.2. Organization acronyms
A.3. Specific terms in this TB
Appendix B 2022 Paris Session B3.58 Workshop
B.1. Breakout sessions to discuss knowledge transfer topics
B.2. Presentation Materials
Appendix C Example Substation Training Program
C.1. Example formal substation engineering training
C.2. Example Substation experiences
C.3. Example substation calculation and study skills
Additional informations
| Publication type | Technical Brochures |
|---|---|
| Reference | 898 |
| Publication year | |
| Publisher | CIGRE |
| ISBN | 978-2-85873-603-4 |
| Study committees | |
| Working groups | WG B3.58 |
| File size | 14 MB |
| Pages number | 162 |
| Price for non member | 300 € |
| Price for member | Free |
Authors
A. OKADA, Convenor (JP), J. CAMDEN, Secretary (US)
Members
G. BUCHS (CH), F. FRAGA (BR), M. FURUYA (JP), J. GOOVAERTS (BE), A. IWATA (JP), L. KORPINEN (FI), M. MARTINEZ (PY), J. MEEHAN (CA), S. MULVEY (IE), I. ROHLEDER (CH), J. SKOG (US), R. SLEBODNIK (US), H. VERGNES (NL), K. WILLIAMS (AU)
Corresponding Members
H. CUNNINGHAM (IE), A. OLSON (US)
Special Assistants
P. COUGHLAN (AU) NGN T. HEINTZELMAN (US) NGN, T-L. MacARTHUR (AU) NGN
Keywords
High Voltage Transmission Reliability, Power System Resilience, Network Risk Management, Climate Impact on Energy Networks, Extreme Weather Vulnerability, Infrastructure Resilience Engineering, Probabilistic Risk Assessment, Asset Criticality Analysis, Failure Consequence Modeling, Condition-Based Risk Evaluation, System Reliability Planning, Network Adaptation Strategies
