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首页> 外文期刊>International Journal of Heat and Mass Transfer >Temperature induced in human organs due to near-field and far-field electromagnetic exposure effects
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Temperature induced in human organs due to near-field and far-field electromagnetic exposure effects

机译:由于近场和远场电磁暴露效应在人体器官中感应的温度

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HighlightsThe field radiation pattern and the operating frequency significantly influence the temperature distribution in each organ.The testis temperature increases are lower than the thresholds for the induction of infertility for both 900 and 1800 MHz.For distances less than 2 m, the SAR values are higher than the general public exposure limit of ICNIRP.AbstractThe main biological effect from exposure to electromagnetic (EM) radiation is a temperature rise in the human body and its sensitive organs, which results from absorbing electromagnetic field (EMF) power. EM near-field and far-field sources, which have different operating frequencies and exposure distances, result in different EMF distribution patterns and EMF power absorptions by the human body. Actually, the severity of the physiological effect can occur with small temperature increases in the sensitive organs. However, the EM absorption characteristics and the temperature increase distribution resulting from different field radiation patterns from EM sources are not well established. To adequately explain the biological effects that are associated with the EMF energy absorption, a systematic study of different EMF distribution patterns and how they interact with body tissue is needed. This study considers the computationally determined specific absorption rate (SAR) and the heat transfer in a heterogeneous human torso model with internal organs exposed to near-field and far-field EM radiations at different frequencies. The electric field, SAR, and the temperature distributions in various organs during exposure to EMFs are obtained through the numerical simulation of EM wave propagation and an unsteady bioheat transfer model. The findings indicate that the field radiation pattern and the operating frequency of an EM source significantly influence the electric field, the SAR, and the temperature distribution in each organ. Moreover, the tissue’s dielectric properties also affect the temperature distribution patterns within the body tissue. These findings enable researchers to more accurately determine the exposure limits for the power output of wireless transmitters, and the distance that they should remain from the humans.
机译: 突出显示 场辐射模式和工作频率会显着影响每个器官的温度分布。 睾丸温度升高低于是900和1800 MHz诱发不育的阈值。 对于小于2μm的距离,SAR值高于ICNIRP的一般公众暴露极限。 摘要 暴露于电磁(EM)的主要生物效应辐射是由于吸收电磁场(EMF)功率导致的人体及其敏感器官的温度升高。具有不同工作频率和曝光距离的EM近场和远场源会导致人体产生不同的EMF分布模式和EMF功率吸收。实际上,在敏感器官中温度升高较小时,可能会发生生理效应。但是,由电磁辐射源产生的不同场辐射图导致的电磁吸收特性和温度升高分布还不十分理想。为了充分说明与EMF能量吸收相关的生物学效应,需要对不同EMF分布模式及其与人体组织的相互作用的系统研究。这项研究考虑了在内部人体暴露于不同频率的近场和远场EM辐射的异质人体躯干模型中,计算确定的比吸收率(SAR)和热传递。通过电磁波传播的数值模拟和非稳态生物传热模型,获得了暴露于EMF期间各器官的电场,SAR和温度分布。这些发现表明,电磁辐射源的场辐射图和工作频率会显着影响每个器官中的电场,SAR和温度分布。此外,组织的介电特性也会影响人体组织内的温度分布模式。这些发现使研究人员能够更准确地确定无线发射器功率输出的暴露极限,以及它们与人体之间应保持的距离。

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