ANALYSES OF RADIATION OF ELECTROMAGNETIC WAVES IN THE HIGH-VOLTAGE AIR DUCT (150 kV) CONSTRUCTION ON HEALTH
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Keywords

Transmission Line
Magnetic Field
Electric Field
Health

How to Cite

Jayadipraja, E. A. (2017). ANALYSES OF RADIATION OF ELECTROMAGNETIC WAVES IN THE HIGH-VOLTAGE AIR DUCT (150 kV) CONSTRUCTION ON HEALTH. Public Health of Indonesia, 3(4), 152–159. https://doi.org/10.36685/phi.v3i4.143

Abstract

Background: High-voltage air ducts is the government program to supply electricity needs. However, in practice, obstacles have been identified in the form of rejection from the community due to the outstanding issues that high-voltage air ducts have an impact on health.

Aim: This research aims to analysis the magnitude of electromagnetic wave radiation of high-voltage air ducts construction on health.

Methods: The study was conducted by measuring electromagnetic wave radiation prior to high-voltage air ducts (150 kV) construction and predicting the amount of radiation generated after this operation and its impact on health.

Result: The field measurement result showed that the highest strength of magnetic field in the absence of construction and operation activity of high-voltage air ducts 150 kV was 0.00085 mT and the highest electric field was 0.004241251 V/m. The results of the magnetic field strength analysis showed that the highest strength of magnetic field and electric field when the high-voltage air ducts is completed and operated was magnetic field of 0.00415 mT and electric field of 38.4 V/m. The value was far lower than the standard limits recommended by IRPA / INIRC, WHO1990 and SNI 04-6950-2003. The allowed electric field strength is 5 kV / m and the allowed magnetic field strength is 0.1 mT.

Conclusion: Electromagnetic wave radiation of High-Voltage Air Ducts is not exceeded the allowed limit, so it will not cause a direct risk to health.

https://doi.org/10.36685/phi.v3i4.143
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References

Amien I, Runtunuwu E. Capturing the benefit of monsoonal and tropical climate to enhance national food security. Jurnal Penelitian dan Pengembangan Pertanian. 2016; 29(1).

Henshaw D. Does our electricity distribution system pose a serious risk to public health? Medical Hypotheses. 2002;59(1):39-51.

Nuryanti A. Pengaruh Radiasi Simulasi Saluran Udara Tegangan EkstraTinggi (SUTET) Terhadap Jumlah Eritrosit Dan Kadar Hemoglobin Sprague Dawley. Majalah Kedokteran Gigi. 2007; 14(2007).

Kuaumawati I, Anne Handrini Dewi R. Pengaruh Lama Radiasi Alat Simulasi saluran Udara Tegangan Ekstra Tinggi (SUTET) Terhadap Panjang Lingkar Kepala Anak Tikus Sprague Dawley. Majalah Ilmu Kedokteran Gigi. 2008;10(2008).

Sri Budarsa I, Sandi Adnyana I, Mahardika IG. STUDI PAPARAN MEDAN MAGNET SALURAN UDARA TEGANGAN EKSTRA TINGGI (SUTET) PADA PERTUMBUHAN SAYURAN CAISIM (BRASSICA JUNCEA L). Ecotrophic: Journal of Environmental Science. 2009;4(2).

Anies A. Mengatasi Gangguan Kesehatan Masyarakat Akibat Radiasi Elektromagnetik Dengan Manajemen Berbasis Lingkungan. 2007.

Swamardika IBA. Pengaruh radiasi gelombang elektromagnetik terhadap kesehatan manusia. Majalah Ilmiah Teknologi Elektro. 2009;8(1).

Kurniawan B, Wahyuni I. Hubungan Radiasi Gelombang Elektromagnetik Dan Faktor Lain Dengan Keluhan Subyektif Pada Tenaga Kerja Industri Eletronik GE di Yogyakarta. Jurnal Promosi Kesehatan Indonesia. 2008; 3(2):127-133.

Suhartono S. KASUS SUTET DI INDONESIA: KAJIAN DARI ASPEK EPIDEMIOLOGI. Buletin Penelitian Kesehatan. 2008;36(4 Des).

Riyadina W. EFEK BIOLOGIS DARI PAPARAN RADIASI ELEKTRO-MAGNETIK. Media Penelitian dan Pengembangan Kesehatan. 1997;7(01 Mar).

Ahlbom I, Cardis E, Green A, et al. Review of the epidemiologic literature on EMF and health. Environmental health perspectives. 2001;109(Suppl 6):911.

Jayadipraja EA, Daud A, Assegaf AH. Air Pollution and Lung Capacity of People Living around the Cement Industry. Public Health of Indonesia. 2016;2(2):76-83.

Alatas Z, Lusiyanti Y. Efek kesehatan radiasi non pengion pada manusia. Cermin Dunia Kedokteran. 2003; 138:34-40.

Arbi M. Identifikasi Prilaku Dan Kondisi Sosial Ekonomi Masyarakat Yang Bermukim Di Sekirar Jaringan Sutt Transmisi Palembang, Sumatera Selatan. Jurnal Agripita. 2012; 1(4):233-242.

Kurniawan IA, Amrita A. STUDI INTENSITAS MEDAN LISTRIK SUTT 150 KV KONFIGURASI HORIZONTAL UNTUK LING-KUNGAN PEMUKIMAN. Jurnal Ilmiah SPEKTRUM.2(4):32-38.

Priestley T, Evans GW. Resident perceptions of a nearby electric transmission line. Journal of Environmental Psychology. 1996; 16(1):65-74.

Portier CJ, Wolfe MS. Assessment of health effects from exposure to power-line frequency electric and magnetic fields. NIH publication. 1998;98:3981.

Utama B. PENGURANGAN POLLUSI RADIASI MEDAN ELEKTROMAGNETIK DENGAN PENEMPATAN KAWAT GROUN-DING ANTARA KONDUKTOR PHASA DAN KONTUR PERMU-KAAN TANAH. Paper presented at: Prosiding Seminar Nasional ReTII2015.

Yulia E. PENGARUH JENIS ATAP RUMAH TERHADAP PENU-RUNAN INTENSITAS MEDAN MAGNET DI BAWAH SUTT 150 KV. JURNAL PEMBELAJARAN FISIKA. 2017;6(1):83-91.

Hadi AI, Samdara R, Nurliana H. Efisiensi tumbuhan dalam meredam Gelombang elektromagnetik (studi kasus di sutt kota bengkulu). GRADIEN. 2012;8(1):722-727.

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