Determining the ideal fibrous filter geometry

Our client asked:

The project proposal requested that Sagentia Innovation delivers an approximate method to determine the expected dominant capture mechanism at work for a given fibrous filter operating in a certain liquid medium (most likely water) when this filter is used to capture a certain type and size of particle.

The project story:

Sagentia Innovation conducted a literature review for theoretical and experimental methods to determine dominant capture mechanisms in fibrous filter media
Upon review, the client’s PM expressed that they wanted additional constraints, which we knew were not addressed by the methods currently found in the literature
Upon discussions with the client, we learned that the company has Atomic Force Microscopy (AFM) equipment that is currently underutilised

Sagentia Innovation delivered the computational tool that addressed all of the client requirements as well as the guidance on experimental methods
The client agreed to a second list of tasks, which included using compiled code. The remaining budget was used to address this list of tasks, resulting in a more refined and significantly faster tool

Client benefit:

A report detailing a mix of established and novel theoretical methods that can be used to estimate the likelihood of the different capture mechanisms for a range of particle sizes in a given fibrous filter medium used in a fluid

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