![Nanobubbles 101 - The Science of Nanobubbles [S1 E2]](https://storage.googleapis.com/goodpods-images-bucket/episode_images/efdd851dc3b23ee3c17eb8c5139a45b0e58aa2ac775c69b90c3390e62edad4d4.avif)
The Science of Nanobubbles [S1 E2]
05/15/24 • 17 min
In this episode, we explore the complexities surrounding nanobubbles, focusing on their generation,
characterisation, and stability. We explain how electric field methods of generating nanobubbles yield a notably higher zeta
potential and higher nanobubble populations per unit volume, leading to longer-lived bubbles compared to those produced through mechanical methods. We look at how rigorous experimentation, including laser light scattering, has provided a deeper understanding of nanobubble population dynamics over time. We touch upon the critical factors of temperature and pressure sensitivity of nanobubbles, highlighting their implications for industrial applications.
This conversation sets the stage for our next episode, where we will dive deeper into the environmental and industrial applications of nanobubbles, building on the foundational scientific
concepts discussed today.
Thank you for joining us, and we look forward to continuing this fascinating exploration of nanobubble technology in our upcoming discussions.
www.aquab.com
Hosted on Acast. See acast.com/privacy for more information.
In this episode, we explore the complexities surrounding nanobubbles, focusing on their generation,
characterisation, and stability. We explain how electric field methods of generating nanobubbles yield a notably higher zeta
potential and higher nanobubble populations per unit volume, leading to longer-lived bubbles compared to those produced through mechanical methods. We look at how rigorous experimentation, including laser light scattering, has provided a deeper understanding of nanobubble population dynamics over time. We touch upon the critical factors of temperature and pressure sensitivity of nanobubbles, highlighting their implications for industrial applications.
This conversation sets the stage for our next episode, where we will dive deeper into the environmental and industrial applications of nanobubbles, building on the foundational scientific
concepts discussed today.
Thank you for joining us, and we look forward to continuing this fascinating exploration of nanobubble technology in our upcoming discussions.
www.aquab.com
Hosted on Acast. See acast.com/privacy for more information.
Previous Episode
An Introduction to Nanobubbles [S1 E1]
Nanobubbles might be small in size, but their potential impact is enormous. By understanding and harnessing their unique properties, we stand on the cusp of technological and environmental advancements that could shape the future of multiple industries and contribute significantly to sustainability efforts.
Key Takeaways:
Nanobubbles present a significant opportunity for advancing numerous industrial processes and environmental solutions.
Their ability to remain stable in liquids for extended periods allows for increased solubility of gases, surpassing the limits set by Henry's Law.
The potential applications of nanobubble technology are vast and varied, touching on sectors such as aquaculture, water treatment, and energy.
Nanobubbles offer a promising solution to environmental challenges, particularly in the fight against eutrophication in water bodies.
Thank you for listening to NanoBubbles 101. This episode is just the beginning of our exploration into the tiny, yet immensely powerful world of nanobubbles.
In our next episode we’ll dive deeper into the science of nanobubbles.
Hosted on Acast. See acast.com/privacy for more information.
Next Episode
Applications of Nanobubbles [S1 E3]
In this episode we explore the multifaceted applications of nanobubbles across a range of
environmental and industrial sectors - from enhancing aquaculture health by addressing infections
like sea lice to improving water quality through the extended half-life of ozone in nanobubble form,
the utility of nanobubbles is proving to be exceptionally wide-ranging.
We see how in the oil and gas industry, nanobubbles facilitate more efficient oil and gas extraction
by lowering the surface tension, thereby enhancing well stimulation and hydrocarbon release.
We discuss the many environmental applications, including the treatment of wastewater, where
reactive oxygen species generated by nanobubbles effectively oxidise harmful compounds, aiding in
compliance with environmental regulations.
In the realm of fuel efficiency and emissions reduction, incorporating nanobubbles into fuels can
lead to more complete combustion within engines, reducing harmful emissions.
This high-level overview captures just a glimpse of the expansive applications of nanobubbles,
underscoring their potential to innovate and enhance various industrial processes and
environmental management techniques.
The upcoming episode in the Nanobubbles 101 series will dive into the generation of nanobubbles,
addressing the challenges, innovations and the scalability of nanobubble technology.
www.aquab.com
Hosted on Acast. See acast.com/privacy for more information.
If you like this episode you’ll love
Episode Comments
Generate a badge
Get a badge for your website that links back to this episode
<a href="https://goodpods.com/podcasts/nanobubbles-101-476490/the-science-of-nanobubbles-s1-e2-63972642"> <img src="https://storage.googleapis.com/goodpods-images-bucket/badges/generic-badge-1.svg" alt="listen to the science of nanobubbles [s1 e2] on goodpods" style="width: 225px" /> </a>
Copy