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Lightning is important for all scientists and engineers involved
with electric installations. It is gaining further relevance since
climate warming is causing an increase in lightning strikes, and
since the rising numbers of renewable power generators, the
electricity grid, and charging infrastructure are susceptible to
lightning damage. This is the second edition to this comprehensive
work. Both volumes have been thoroughly revised and updated for
this second edition. Volume 1 treats lightning return stroke
modelling and lightning electromagnetic radiation, and Volume 2
addresses electrical processes and effects. Chapter coverage
includes various models and simulations of lightning strokes,
measurements of lightning-generated EM fields, HF, VHF and
microwave radiation, and lightning location systems; atmospheric
discharge processes, lightning strikes to grounded structures and
towers, EM field propagation, interaction with cables, effects on
power transmission and distribution systems, effects in the
ionosphere, mesosphere and magnetosphere, as well as NOx generation
and climate effects. The volumes provide the rules and procedures
to combine the readers' understanding with a model of every
lightning-related electromagnetic process, and their effects and
interactions. Readers obtain first-hand experience through
simulations of the EM field of thunderclouds and lightning flashes
and their effects. These volumes are a valuable resource for
researchers and engineers in the areas of electrical engineering
and physics involved in the fields of electromagnetic
compatibility, lightning protection, renewable energy systems,
smart grids, and lightning physics, as well as for professionals
from telecommunication companies and manufacturers of power
equipment, and advanced students.
Lightning is important for all scientists and engineers involved
with electric installations. It is gaining further relevance since
climate warming is causing an increase in lightning strikes, and
since the rising numbers of renewable power generators, the
electricity grid, and charging infrastructure are susceptible to
lightning damage. This is the second edition to this comprehensive
work. Both volumes have been thoroughly revised and updated for
this second edition. Volume 1 treats lightning return stroke
modelling and lightning electromagnetic radiation, and Volume 2
addresses electrical processes and effects. Chapter coverage
includes various models and simulations of lightning strokes,
measurements of lightning-generated EM fields, HF, VHF and
microwave radiation, and lightning location systems; atmospheric
discharge processes, lightning strikes to grounded structures and
towers, EM field propagation, interaction with cables, effects on
power transmission and distribution systems, effects in the
ionosphere, mesosphere and magnetosphere, as well as NOx generation
and climate effects. The volumes provide the rules and procedures
to combine the readers' understanding with a model of every
lightning-related electromagnetic process, and their effects and
interactions. Readers obtain first-hand experience through
simulations of the EM field of thunderclouds and lightning flashes
and their effects. These volumes are a valuable resource for
researchers and engineers in the areas of electrical engineering
and physics involved in the fields of electromagnetic
compatibility, lightning protection, renewable energy systems,
smart grids, and lightning physics, as well as for professionals
from telecommunication companies and manufacturers of power
equipment, and advanced students.
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