眼表温度：基于生物热方程的三维有限元预测

Ocular surface temperature: a 3D FEM prediction using bioheat equation.

作者信息

Ng E Y K, Ooi E H

机构信息

School of Mechanical and Aerospace Engineering, College of Engineering, Nanyang Technological University, Nanyang Avenue, Singapore 639798, Singapore.

出版信息

Comput Biol Med. 2007 Jun;37(6):829-35. doi: 10.1016/j.compbiomed.2006.08.023. Epub 2006 Oct 10.

DOI:10.1016/j.compbiomed.2006.08.023

PMID:17034781

Abstract

Computational and mathematical human eye models from previous studies which were constructed in two-dimensions (2D) did not give a precise representation of the actual human eye. This work is an extension from an earlier published work on the 2D model. In this paper, a 3D FEM model of the human eye is simulated for the steady state temperature distribution during normal condition and during electromagnetic (EM) wave radiation. Results show a discrepancy of 0.49% for a normal condition as opposed to 1.9% of a 2D model when compared to experimental results from open literatures. Investigations on the EM wave radiations found an average power absorption density of 15,151 and 22,145 Wm(-3) for the 750 and 1500 MHz radiation, respectively. A peak temperature of 38.18( composite function)C was predicted for the 750 MHz radiation while 41.19( composite function)C was computed for the 1500 MHz radiation. These temperatures are in reasonable agreement with the simulated results computed by another report in the past.

摘要

先前研究中构建的二维（2D）计算和数学人眼模型并不能精确呈现实际人眼的情况。这项工作是对早期发表的二维模型研究的扩展。本文模拟了人眼的三维有限元模型，以研究正常状态以及电磁（EM）波辐射期间的稳态温度分布。与公开文献中的实验结果相比，结果显示正常状态下的差异为0.49%，而二维模型为1.9%。对电磁波辐射的研究发现，750 MHz和1500 MHz辐射的平均功率吸收密度分别为15,151和22,145 Wm(-3)。预测750 MHz辐射的峰值温度为38.18（复合函数）°C，而1500 MHz辐射计算得出的峰值温度为41.19（复合函数）°C。这些温度与过去另一篇报告计算的模拟结果相当吻合。

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眼表温度：基于生物热方程的三维有限元预测

Ocular surface temperature: a 3D FEM prediction using bioheat equation.

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