A coupled fluid-dynamics-heat transfer model for 3D simulations of the aqueous humor flow in the human eye
Résumé
Understanding human eye behavior involves intricate interactions between physical phenomena such as heat transfer and fluid dynamics. Accurate computational models are vital for comprehending ocular diseases and therapeutic interventions.
This work focuses on modeling and simulating aqueous humor flow in the anterior and posterior chambers of the eye, coupled with overall heat transfer.
Aqueous humor dynamics regulates intraocular pressure, crucial for understanding conditions like glaucoma.
Convective effects from temperature disparities also influence this flow.
Extending prior research, this work develops a comprehensive three-dimensional computational model to simulate coupled fluid-dynamic-heat transfer model, thus contributing to the understanding of ocular physiology.
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