• DocumentCode
    1794691
  • Title

    Biological effects of electromagnetic interference of high voltage transmission lines on human body

  • Author

    Kavya, M. ; Yashodhara, B. ; Arunachalam, V. ; Devendranath, D. ; Yellaiah, A. ; Rashmi ; Sailaja, R.R.N.

  • Author_Institution
    Central Power Res. Inst., Bangalore, India
  • fYear
    2014
  • fDate
    6-11 Jan. 2014
  • Firstpage
    1
  • Lastpage
    6
  • Abstract
    Electromagnetic radiation has turned into a major threat to humans from sources like mobile phones, transmission lines and many more electrical appliances. An ecological problem with increasing sensibility is seen. For providing continuous and uninterrupted supply of electric power to consumer´s maintenance, operation of high voltage power lines are often performed with systems energized. In planning high-voltage lines, the magnetic and electric field quantities have to be examined in order to avoid EMC problems with the surroundings of the power line. The main aim of this paper is to create a model for human body and transmission line using Ansoft Maxwell. Mathematical model for operation of EHV lines have been developed using MATLAB considering time-varying magnetic fields expressed in second order differential equation. The effect of EHV lines will be measured and the safe limits for human interference with electromagnetic fields will be determined.
  • Keywords
    bio-optics; biological effects of fields; biology computing; differential equations; ecology; electric fields; electricity supply industry; electromagnetic fields; electromagnetic interference; high-voltage engineering; magnetic fields; mathematics computing; physiological models; power transmission lines; safety; Ansoft Maxwell; EHV line effect measurement; EHV line operation; EMC problems; MATLAB; Mathematical model; biological effects; consumer maintenance; continuous electric power supply; ecological problem; electric field quantity examination; electrical appliances; electromagnetic fields; electromagnetic interference; electromagnetic radiation; high voltage power line operation; high voltage transmission lines; high-voltage line planning; human body model; human interference; magnetic field quantity examination; mobile phones; power line surroundings; safe limits; second order differential equation; time-varying magnetic fields; uninterrupted electric power supply; Biological system modeling; Conductors; Electromagnetic fields; Finite element analysis; Magnetic fields; Mathematical model; Power transmission lines; Calculation of EMF; Modelling of human body;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Power Signals Control and Computations (EPSCICON), 2014 International Conference on
  • Conference_Location
    Thrissur
  • Print_ISBN
    978-1-4799-3611-3
  • Type

    conf

  • DOI
    10.1109/EPSCICON.2014.6887504
  • Filename
    6887504