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„This made the book very interesting and well worth reading if you are involved in modeling electrostatic ion flows.“ (IEEE Electrical Engineering magazine, 1 March 2015)
Presents all-new laboratory-tested theory for calculatingmore accurate ionized electric fields to aid in designinghigh-voltage devices and its components
Understanding and accurately calculating corona originatedelectric fields are important issues for scientists who areinvolved in electromagnetic and electrostatic studies. High-voltagedc lines and equipment, in particular, can generate ion flows thatcan give rise to environmental inconveniences.
Filamentary Ion Flow: Theory and Experiments providesinterdisciplinary theoretical arguments to attain a final model forcomputational electrostatics in the presence of flowing spacecharge. Based on years of extensive lab tests pertaining to thephysical performance of unipolar corona ion flows, the book coversthe enlarging of conventional electrostatic applications, whichallows for some emerging and uncharted interests to beexplored.
Filamentary Ion Flow:
* Examines the theoretical discussions for creating a model ofcomputational electrostatics involved with flowing spacecharges
* Presents new theory and experimental data based on extensivetesting
* Offers potential design applications utilizing the theory
* Helps scientists who are involved in electromagnetic andelectrostatic studies understand and accurately calculate coronaoriginated ion flow fields
Filamentary Ion Flow: Theory and Experiments is ideal forelectrical engineers and research scientists interested inhigh-voltage technology, computational electrostatics, andelectromagnetic theory.
Understanding and accurately calculating corona originatedelectric fields are important issues for scientists who areinvolved in electromagnetic and electrostatic studies. High-voltagedc lines and equipment, in particular, can generate ion flows thatcan give rise to environmental inconveniences.
Filamentary Ion Flow: Theory and Experiments providesinterdisciplinary theoretical arguments to attain a final model forcomputational electrostatics in the presence of flowing spacecharge. Based on years of extensive lab tests pertaining to thephysical performance of unipolar corona ion flows, the book coversthe enlarging of conventional electrostatic applications, whichallows for some emerging and uncharted interests to beexplored.
Filamentary Ion Flow:
* Examines the theoretical discussions for creating a model ofcomputational electrostatics involved with flowing spacecharges
* Presents new theory and experimental data based on extensivetesting
* Offers potential design applications utilizing the theory
* Helps scientists who are involved in electromagnetic andelectrostatic studies understand and accurately calculate coronaoriginated ion flow fields
Filamentary Ion Flow: Theory and Experiments is ideal forelectrical engineers and research scientists interested inhigh-voltage technology, computational electrostatics, andelectromagnetic theory.