Plets David, Verloock Leen, Van Den Bossche Matthias, Tanghe Emmeric, Joseph Wout, Martens Luc
Department of Information Technology, Ghent University/iMinds, Gaston Crommenlaan 8, box 201, Ghent B-9050, Belgium.
Department of Information Technology, Ghent University/iMinds, Gaston Crommenlaan 8, box 201, Ghent B-9050, Belgium
Radiat Prot Dosimetry. 2016 Feb;168(2):212-22. doi: 10.1093/rpd/ncv284. Epub 2015 May 8.
In situ exposure of electric fields of 11 microwave ovens is assessed in an occupational environment and in an office. Measurements as a function of distance without load and with a load of 275 ml of tap water were performed at distances of <1 m. The maximal measured field was 55.2 V m(-1) at 5 cm from the oven (without load), which is 2.5 and 1.1 times below the International Commission on Non-Ionizing Radiation Protection reference level for occupational exposure and general public exposure, respectively. For exposure at distances of >1 m, a model of the electric field in a realistic environment is proposed. In an office scenario, switching on a microwave oven increases the median field strength from 91 to 145 mV m(-1) (+91 %) in a traditional Wireless Local Area Network (WLAN) deployment and from 44 to 92 mV m(-1) (+109 %) in an exposure-optimised WLAN deployment.
在职业环境和办公室中对11台微波炉的电场进行了原位暴露评估。在距离小于1米的情况下,分别在无负载和有275毫升自来水负载的条件下,测量了电场强度随距离的变化。在距离微波炉5厘米处(无负载)测得的最大电场为55.2伏/米,分别比国际非电离辐射防护委员会规定的职业暴露参考水平和公众暴露参考水平低2.5倍和1.1倍。对于距离大于1米处的暴露情况,提出了一个实际环境中电场的模型。在办公室场景中,开启一台微波炉会使传统无线局域网(WLAN)部署中的电场强度中值从91毫伏/米增加到145毫伏/米(增加91%),在优化暴露的WLAN部署中从44毫伏/米增加到92毫伏/米(增加109%)。