Electric field levels and its evaluation from the view of public health: Samsun city center example
<p><strong>Objective:</strong> In parallel with technological developments, radio/TV transmitters, base stations, power lines, transformers, electrical household appliances and medical equipments have begun to take up more space in our daily lives, causing an increase in the electr...
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Turkish Society of Public Health Specialists
2018-09-01
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| Series: | Turkish Journal of Public Health |
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| Online Access: | https://tjph.org/ojs/index.php/TJPH/article/view/747 |
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doaj-07e75084dfe14287afd80a6af00aa53d2020-11-25T03:23:39ZengTurkish Society of Public Health SpecialistsTurkish Journal of Public Health 1304-10881304-10962018-09-01162146156196Electric field levels and its evaluation from the view of public health: Samsun city center exampleBegüm Korunur Engiz<p><strong>Objective:</strong> In parallel with technological developments, radio/TV transmitters, base stations, power lines, transformers, electrical household appliances and medical equipments have begun to take up more space in our daily lives, causing an increase in the electromagnetic fields (EMF) in our environments. Increasing demand for wireless systems has further led to more exposure to EMFs. Therefore, a more comprehensive understanding of the potential health consequences of electromagnetic field exposure has become ever more crucial. <strong>Method:</strong> In this study, short term electric field strength (E) measurements were taken in the İlkadım, Canik and Atakum districts of Samsun province, at 152 different locations in the months of April, May and September in 2017. The measurements were taken using a PMM 8053 EMF meter. In order to determine the change in E levels within a day, a 24 hour long measurement was conducted at the location where the highest average electric field strength (E<sub>avg</sub>) was recorded. <strong>Results:</strong> The evaluation of E measurement results showed that the highest maximum electric field strength (E<sub>max</sub>) was 4.75 V/m, and E<sub>avg</sub> was 3.35 V/m. The differences between all E<sub>max</sub> and E<sub>avg</sub> values recorded in the three districts were statistically significant at a 95% confidence level. E<sub>max</sub>s recorded in Ilkadim district showed larger variability than the other districts. It was determined that at only 2% of the 152 measurement locations, E<sub>avg</sub> levels were between 2V/m and 4V/m. The assessment of the 24 hour E measurements demonstrated that the highest E value was recorded between 12:00 and 17:59; when the base station was the most active. Furthermore, the mean E value measured during noon hours was 58% higher than the value measured during night hours. <strong>Conclusions:</strong> Although the recorded E levels were below the limits determined by the ICNIRP and ICTA; it can be considered as high for countries like Switzerland and Italy where lower limits are enforced. Therefore, regular monitoring of E level exposure and keeping E levels within safe limits is recommended in order to protect public health.</p>https://tjph.org/ojs/index.php/TJPH/article/view/747Electromagnetic field, electric field strength, base station, limit values, public health |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Begüm Korunur Engiz |
| spellingShingle |
Begüm Korunur Engiz Electric field levels and its evaluation from the view of public health: Samsun city center example Turkish Journal of Public Health Electromagnetic field, electric field strength, base station, limit values, public health |
| author_facet |
Begüm Korunur Engiz |
| author_sort |
Begüm Korunur Engiz |
| title |
Electric field levels and its evaluation from the view of public health: Samsun city center example |
| title_short |
Electric field levels and its evaluation from the view of public health: Samsun city center example |
| title_full |
Electric field levels and its evaluation from the view of public health: Samsun city center example |
| title_fullStr |
Electric field levels and its evaluation from the view of public health: Samsun city center example |
| title_full_unstemmed |
Electric field levels and its evaluation from the view of public health: Samsun city center example |
| title_sort |
electric field levels and its evaluation from the view of public health: samsun city center example |
| publisher |
Turkish Society of Public Health Specialists |
| series |
Turkish Journal of Public Health |
| issn |
1304-1088 1304-1096 |
| publishDate |
2018-09-01 |
| description |
<p><strong>Objective:</strong> In parallel with technological developments, radio/TV transmitters, base stations, power lines, transformers, electrical household appliances and medical equipments have begun to take up more space in our daily lives, causing an increase in the electromagnetic fields (EMF) in our environments. Increasing demand for wireless systems has further led to more exposure to EMFs. Therefore, a more comprehensive understanding of the potential health consequences of electromagnetic field exposure has become ever more crucial. <strong>Method:</strong> In this study, short term electric field strength (E) measurements were taken in the İlkadım, Canik and Atakum districts of Samsun province, at 152 different locations in the months of April, May and September in 2017. The measurements were taken using a PMM 8053 EMF meter. In order to determine the change in E levels within a day, a 24 hour long measurement was conducted at the location where the highest average electric field strength (E<sub>avg</sub>) was recorded. <strong>Results:</strong> The evaluation of E measurement results showed that the highest maximum electric field strength (E<sub>max</sub>) was 4.75 V/m, and E<sub>avg</sub> was 3.35 V/m. The differences between all E<sub>max</sub> and E<sub>avg</sub> values recorded in the three districts were statistically significant at a 95% confidence level. E<sub>max</sub>s recorded in Ilkadim district showed larger variability than the other districts. It was determined that at only 2% of the 152 measurement locations, E<sub>avg</sub> levels were between 2V/m and 4V/m. The assessment of the 24 hour E measurements demonstrated that the highest E value was recorded between 12:00 and 17:59; when the base station was the most active. Furthermore, the mean E value measured during noon hours was 58% higher than the value measured during night hours. <strong>Conclusions:</strong> Although the recorded E levels were below the limits determined by the ICNIRP and ICTA; it can be considered as high for countries like Switzerland and Italy where lower limits are enforced. Therefore, regular monitoring of E level exposure and keeping E levels within safe limits is recommended in order to protect public health.</p> |
| topic |
Electromagnetic field, electric field strength, base station, limit values, public health |
| url |
https://tjph.org/ojs/index.php/TJPH/article/view/747 |
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