Abstract
In this chapter, a broad view of ‘lightning protection’ includes the use of lightning in all proactive protection strategies. A summary of measurement technologies used on electric power systems and achievements of research campaigns will show the origins of some traditional surge waveforms, such as the 1.2/50 standard lightning impulse voltage wave, from nearly 100 years ago. Some of these methods and many results still apply to present-day Smart Grid component protection. The authors also cover the sequential evolution of the following: traditional travelling wave systems (TWS) for finding faults along individual cables and lines, from 1940s; the modern LLS based on travelling waves in two dimensions, from 1980s; and the recent wide-area power system monitoring and measurement systems, using time-synchronized measurements of voltage and current phasors (synchrophasors) from 2005, classed as a ‘Smart Grid’ initiative.
Original language | English (US) |
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Title of host publication | Lightning Interaction with Power Systems |
Publisher | Institution of Engineering and Technology |
Pages | 271-308 |
Number of pages | 38 |
ISBN (Electronic) | 9781839530920 |
DOIs | |
State | Published - Jan 1 2020 |
Keywords
- 1.2/50 standard lightning impulse voltage wave
- Current measurement
- Current phasor measurement
- Electric current measurement
- Fault location
- Lightning protection
- Lightning protection
- Measurement technologies
- Phasor measurement
- Power system faults
- Power system measurement
- Power system measurement and metering
- Power system protection
- Proactive protection strategies
- Smart grid component protection
- Smart grid initiative
- Smart power grids
- Synchrophasor measurement
- Time-synchronized measurements
- Traditional surge waveforms
- Traditional travelling wave systems
- Voltage measurement
- Voltage measurement
- Voltage phasor measurement
- Wide-area power system measurement
- Wide-area power system monitoring
ASJC Scopus subject areas
- General Engineering