Simulation Based Temperature Profiling of Human Eye due to the Exposure of LED Light

M. Rahman, M. Rabbani
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Abstract

The use of LED luminaries is increasing day by day and the traditional sources of light are being replaced by this semiconductortechnology. In this study, the interactions of Red, Green and Blue LED light with human-eye are considered to model the temperatureprofile due to the attenuation in the ocular media. The simulation has been done using COMSOL Multiphysics 5.3. The results of thestudy show that Blue LED light causes temperature rise more than the other two colours of light. At the tip of the corneal surface,blue LED light causes the temperature to rise by 0.91⁰C whereas the rise of temperature for green and red LED are 0.85⁰C and0.46⁰C respectively. However, the temperature at the posterior layers of the eye, sclera, choroid and retina undergoes little thermaleffects due to LED light owing to the fact that the heat-flux due blood flow is dominant in that region. Dhaka Univ. J. Sci. 70(1): 34-41, 2022 (January)
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LED光照射下人眼温度分布的仿真研究
LED灯具的使用日益增加,传统光源正被这种半导体技术所取代。在本研究中,考虑了红、绿、蓝LED光与人眼的相互作用,以模拟由于眼介质衰减而导致的温度分布。采用COMSOL Multiphysics 5.3软件进行仿真。研究结果表明,蓝色LED光比其他两种颜色的光更容易引起温度上升。在角膜表面的尖端,蓝色LED光导致温度上升0.91⁰C,而绿色和红色LED的温度上升分别为0.85⁰C和0.46⁰C。然而,由于LED光的作用,眼睛后层、巩膜、脉络膜和视网膜的温度几乎不受热效应的影响,因为血流引起的热通量在这些区域占主导地位。达卡大学学报(自然科学版),70(1):34- 41,2022 (1)
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