Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels

Surku Ozen; Gizem Ogel; Selçuk Helhel

Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels

Year 2013, Volume: 26 Issue: 4, 573 - 578, 02.01.2014

Abstract

In this study, the electric and magnetic fields occurred around the medium voltage power distribution lines (MV-PDL) in the residential area have been analyzed, and different MV and LV power distribution lines (PDL) in Antalya were selected in order to investigate the electromagnetic field exposure according to yearly-based current load on power lines. Knowledge of magnetic field levels determined around power lines is so important for completing acceptable epidemiological studies, and medium voltage power lines established in the residential area close to the apartments have been investigated. There are houses and apartments in a distance of 10m or less which have potential for child leukemia, since magnetic field levels are around 0.4 μT and up.

Keywords: Annual Power Demand, Medium Voltage Power Lines, Electric and Magnetic Field, Public Health, Safety Standards

Keywords

Annual Power Demand, Medium Voltage Power Lines, Electric and Magnetic Field, Public Health, Safety Standards

References

Ahlbom A, Day N, Feychting M, Roman E, Skinner J, Dockerty J, et al. A pooled analysis of magnetic fields and childhood leukemia. Br J Cancer 2000;83:692–8.
Draper G, Vincent T, Kroll ME, Swanson J. Childhood cancer in relation to distance from high voltage power lines in England and Wales: a case- control study. Br Med J 2005;330:1290–2. [7] J. Liu, W. Ruan, S. Fortin and F. P. Dawalibi, “Electromagnetic fields near high voltage electrical power lines”, 0-7803-7459-2/02, IEEE Conference, pp. 401-408, 2002.
Olsen Jh, Nielsen A, Schulgen G. Residence near high voltage facilities and risk of cancer in children. British Medical Journal 307:891- 895(1993).
Verkasalo PK, Pukkala E, Hongisto MY, Valjus JE, Jarvinen PJ, Heikkila KV, Koskenvuo M. Risk of cancer in finnish children living close to power lines. British Medical Journal 307:895- 898(1993)
J.F. Deford, O.P. Gandhi, Impedance method to calculate currents induced in biological bodies exposed to quasi-static electromagnetic fields, IEEE Trans. Electromag. Compat. Pp.168-173. Ec-27(3) (1985)
M.A. Abd-Allah, Sh.A. Mahmoud, H.I Anis, Interaction of environmental ELF electromagnetic fields with living bodies, Electric Machines And Power Systems, Vol. 28, Taylor &Francis, 301- 312. 2000
Coleman MP et Al. Leukemia and residence near electrical transmission lines: a case control study. Br J Cancer. 60 (1989) Pp.793-8.
Niehs report on health effects from exposure to power – line frequency electric and magnetic field, Reported In Response To The 1992, Energy Policy Act ( Pl 102-486, Section 2118).
Greenland, S., Sheppard, A., Kaune, W., Poole, C. And Kelsh, M. A Pooled analysis of magnetic fields, wire codes, and childhood leukemia. Epidemiology 11,624–634 (2000).
Ahlbom, A. Et Al. A Pooled Analysis Of Magnetic Fields And Childhood Leukemia. Br J. Cancer. 83, 692–698 (2000).
Şükrü Özen, Low-frequency transient electric and magnetic fields coupling to child body, Radiation Protection Dosimetry, 128(1):62-7, 2008
ICNIRP, Guidelines for limiting exposure to time- varying electric, magnetic, and electromagnetic fields (Up To 300 GHz., Health Physics. 41,449- 522 (1998).
J.F. Deford, O.P. Gandhi, Impedance method to calculate currents induced in biological bodies exposed to quasi-static electromagnetic fields, IEEE Trans. Electromag. Compat. Pp.168-173. Ec-27(3) (1985)
Schuz J, Grigat J-P, Brinkmann K, Michaelis J. Residential magnetic fields as a risk factor for childhood acute leukaemia: results from a german population-based case-control study.Int J Cancer 2001;91:728 –735.
Feychting M, Floderus B, Ahlbom A. Parental occupational exposure to magnetic fields and childhood cancer (Sweden). Cancer Causes Control 2000;11:151 –156.
Savitz Da, Cai J, Van Wijngaarden E, Loomis D, Mihlan G,Dufort V, Kleckner Rc, Nylander- French L, Kromhout H, Zhou H. Case-cohort analysis of brain cancer and leukemia in electric utility workers using a refined magnetic field job- exposure matrix. Am J Ind Med 2000;38:417 – 425.
Li D-K, Odoull R, Wi S, Janevic T, Golditch I, Bracken TD, Senior R, Rankin R, Iriye R. A population-based perspective cohort study of personal exposure to magnetic fields during pregnancy Epidemiology 2002;13:9 –20. of miscarriage.
Ahlbom A. Neurodegenerative diseases, suicide and depressive symptoms in relation to emf. Bioelectromagnetics Suppl 2001;5:S132 –S143.

Year 2013, Volume: 26 Issue: 4, 573 - 578, 02.01.2014

Surku Ozen , Gizem Ogel Selçuk Helhel

Abstract

References

Ahlbom A, Day N, Feychting M, Roman E, Skinner J, Dockerty J, et al. A pooled analysis of magnetic fields and childhood leukemia. Br J Cancer 2000;83:692–8.
Draper G, Vincent T, Kroll ME, Swanson J. Childhood cancer in relation to distance from high voltage power lines in England and Wales: a case- control study. Br Med J 2005;330:1290–2. [7] J. Liu, W. Ruan, S. Fortin and F. P. Dawalibi, “Electromagnetic fields near high voltage electrical power lines”, 0-7803-7459-2/02, IEEE Conference, pp. 401-408, 2002.
Olsen Jh, Nielsen A, Schulgen G. Residence near high voltage facilities and risk of cancer in children. British Medical Journal 307:891- 895(1993).
Verkasalo PK, Pukkala E, Hongisto MY, Valjus JE, Jarvinen PJ, Heikkila KV, Koskenvuo M. Risk of cancer in finnish children living close to power lines. British Medical Journal 307:895- 898(1993)
J.F. Deford, O.P. Gandhi, Impedance method to calculate currents induced in biological bodies exposed to quasi-static electromagnetic fields, IEEE Trans. Electromag. Compat. Pp.168-173. Ec-27(3) (1985)
M.A. Abd-Allah, Sh.A. Mahmoud, H.I Anis, Interaction of environmental ELF electromagnetic fields with living bodies, Electric Machines And Power Systems, Vol. 28, Taylor &Francis, 301- 312. 2000
Coleman MP et Al. Leukemia and residence near electrical transmission lines: a case control study. Br J Cancer. 60 (1989) Pp.793-8.
Niehs report on health effects from exposure to power – line frequency electric and magnetic field, Reported In Response To The 1992, Energy Policy Act ( Pl 102-486, Section 2118).
Greenland, S., Sheppard, A., Kaune, W., Poole, C. And Kelsh, M. A Pooled analysis of magnetic fields, wire codes, and childhood leukemia. Epidemiology 11,624–634 (2000).
Ahlbom, A. Et Al. A Pooled Analysis Of Magnetic Fields And Childhood Leukemia. Br J. Cancer. 83, 692–698 (2000).
Şükrü Özen, Low-frequency transient electric and magnetic fields coupling to child body, Radiation Protection Dosimetry, 128(1):62-7, 2008
ICNIRP, Guidelines for limiting exposure to time- varying electric, magnetic, and electromagnetic fields (Up To 300 GHz., Health Physics. 41,449- 522 (1998).
J.F. Deford, O.P. Gandhi, Impedance method to calculate currents induced in biological bodies exposed to quasi-static electromagnetic fields, IEEE Trans. Electromag. Compat. Pp.168-173. Ec-27(3) (1985)
Schuz J, Grigat J-P, Brinkmann K, Michaelis J. Residential magnetic fields as a risk factor for childhood acute leukaemia: results from a german population-based case-control study.Int J Cancer 2001;91:728 –735.
Feychting M, Floderus B, Ahlbom A. Parental occupational exposure to magnetic fields and childhood cancer (Sweden). Cancer Causes Control 2000;11:151 –156.
Savitz Da, Cai J, Van Wijngaarden E, Loomis D, Mihlan G,Dufort V, Kleckner Rc, Nylander- French L, Kromhout H, Zhou H. Case-cohort analysis of brain cancer and leukemia in electric utility workers using a refined magnetic field job- exposure matrix. Am J Ind Med 2000;38:417 – 425.
Li D-K, Odoull R, Wi S, Janevic T, Golditch I, Bracken TD, Senior R, Rankin R, Iriye R. A population-based perspective cohort study of personal exposure to magnetic fields during pregnancy Epidemiology 2002;13:9 –20. of miscarriage.
Ahlbom A. Neurodegenerative diseases, suicide and depressive symptoms in relation to emf. Bioelectromagnetics Suppl 2001;5:S132 –S143.

There are 18 citations in total.

Details

Primary Language	English
Journal Section	Electrical & Electronics Engineering
Authors	Surku Ozen Gizem Ogel This is me Selçuk Helhel
Publication Date	January 2, 2014
Published in Issue	Year 2013 Volume: 26 Issue: 4

Cite

APA	Ozen, S., Ogel, G., & Helhel, S. (2014). Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels. Gazi University Journal of Science, 26(4), 573-578.
AMA	Ozen S, Ogel G, Helhel S. Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels. Gazi University Journal of Science. January 2014;26(4):573-578.
Chicago	Ozen, Surku, Gizem Ogel, and Selçuk Helhel. “Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels”. Gazi University Journal of Science 26, no. 4 (January 2014): 573-78.
EndNote	Ozen S, Ogel G, Helhel S (January 1, 2014) Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels. Gazi University Journal of Science 26 4 573–578.
IEEE	S. Ozen, G. Ogel, and S. Helhel, “Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels”, Gazi University Journal of Science, vol. 26, no. 4, pp. 573–578, 2014.
ISNAD	Ozen, Surku et al. “Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels”. Gazi University Journal of Science 26/4 (January 2014), 573-578.
JAMA	Ozen S, Ogel G, Helhel S. Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels. Gazi University Journal of Science. 2014;26:573–578.
MLA	Ozen, Surku et al. “Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels”. Gazi University Journal of Science, vol. 26, no. 4, 2014, pp. 573-8.
Vancouver	Ozen S, Ogel G, Helhel S. Residential Area Medium Voltage Power Lines; Public Health, and Electric and Magnetic Field Levels. Gazi University Journal of Science. 2014;26(4):573-8.