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⏰ 🕐Timestamp ⏲ 🕰

00:00 - Introduction

01:11 - The Mystery of Super-Thermal Evaporation

02:33 - Hypothesis 1: The Reduced Latent Heat Theory

05:45 - Hypothesis 2: The Photomolecular Effect

07:26 - Simulation Results: The "Molecular Shaker" Effect

10:04 - The Molecular Mechanism: How Hydrogels Help

11:30 - An Indirect Pathway: Fragmentation Before Evaporation

13:14 - Main Takeaway: The Dominant Mechanism Revealed

14:13 - Real-World Implications

14:45 - Conclusion & Final Thoughts

" How an alternating electric field impacts water evaporation, particularly when water is confined within hydrogels. The authors utilized non-equilibrium molecular dynamics simulations to investigate evaporation rates, challenging the prior belief that intermediate water states within hydrogels reduce the latent heat of vaporization. Instead, their findings suggest that hydrogels facilitate the formation of water clusters at the liquid-vapor interface, which are then more easily cleaved into smaller fragments and single molecules by the applied electric field, thereby enhancing evaporation. This research provides a molecular-level understanding of enhanced water evaporation and supports the photomolecular theory, which posits that incident photons can directly cleave water clusters, thereby improving the efficiency of water purification methods."

I have BSME and MSME and I am Water Engineer by practice, trade, and researcher, check out my article here:

https://iopscience.iop.org/article/10.1088/1748-9326/acb662

All the data I'm sharing comes directly from a peer-reviewed article. For this educational review, I'm using brief quotations of the core findings—a common practice in articles and broadcasts. Of course, the source is linked for you below.

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#hydrogel #evaporation #cleanwater #waterquality #chemistry

#water #waterengineering #education #sdg6 #waterforall