AI Article Synopsis
- A new 3D numerical model for heat transfer in the human eye has been developed, considering the flow of aqueous humour in the anterior chamber.
- This model changes the temperature distribution on the cornea and lens surfaces but does not significantly affect their overall temperature values.
- It finds that the coolest area of the cornea shifts 2 mm below its center and identifies the maximum fluid velocity in the anterior chamber as 3.36 × 10(-4) m/s, with effects balanced by using anisotropic thermal conductivity.
Article Abstract
In this work we present a new 3D numerical model for heat transfer in the human eye, which takes into account the aqueous humour flow in the anterior chamber. We show that consideration of this phenomenon in the calculations alters the temperature distribution on the corneal and lens surfaces, without, however, noticeably changing their absolute values. The most notable effect is that the coolest area of the cornea moves at a point of 2 mm inferior to its geometric centre. The maximum velocity of the fluid in the anterior chamber was found to be 3.36 × 10(-4) m s(-1). The effect of the flow on displacing the cool area of the corneal surface temperature is counterbalanced by assuming anisotropic thermal conductivity. The model was implemented in the case of an artificial intraocular lens to show the resulting temperature variations.
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| http://dx.doi.org/10.1088/0031-9155/55/19/003 | DOI Listing |
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