This study examines the absorption dynamics of liquid droplets penetrating a non-woven fibrous material. Experiments were conducted by placing glycerol-ethanol droplets on the material and recording their absorption with video. The contact area, volume, and total absorption time were measured. A model based on Lucas-Washburn dynamics and using the material's permeability and capillary radius showed good agreement with experimental results, correctly predicting absorption times. The droplet absorption occurred in three stages - an initial spreading, a constant contact area phase, and a final receding contact area phase.