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https://www.secure.supplies/nano-bubbles-on-demand
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Secure Supplies design and supply turnkey Nanobubble
Systems, ranging from small to industrial scale applications for
Global Markets distributors, and clients wanting to use
Stanley A Meyer Nanobubble Generators.
It is vital to recognize that Stanley A Meyer was first to
documented and patent these technologies. Further more the
extremely Smart and Professional Japanese Science Community
furthered the understanding and applications.
All others came after these Milestones and Leaders in the
Technology.
Secure Supplies Teams Founded by Daniel Donatelli have
made it their life's mission to preserve and share these
technologies since 2004.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
➢ Nanobubbles are extremely
small gas bubbles that have
several unique physical
properties that make them
very different from normal
bubbles.
These properties make Nanobubbles a Superior Aeration method for a
number of applications around the world.
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https://www.secure.supplies/nano-bubbles-on-demand
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Nanobubbles have a typical mean diameter of roughly 80nm,
based on extensive testing through independent laboratories
using Malvern's NanoSight Nanoparticle Tracking Analysis
software. Bubbles this size lack enough buoyancy to reach the
surface and instead follow Brownian motion.
The net effect is that Nanobubbles will remain suspended in
water for months until they dissolve, traveling randomly
throughout the body of water and efficiently aerating the entire
water column. Subsequently, dissolved oxygen (DO) measured at
the deepest parts of a tank or pond will match the DO recorded
near the surface.
This unique behavior enables Nanobubbles to provide a
homogenous distribution of oxygen throughout an entire body of
water.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
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https://www.secure.supplies/nano-bubbles-on-demand
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All bubbles naturally possess a surface charge.
The smaller the bubble, the stronger the surface charge.
Nanobubbles have a high-zeta potential, which is the electro
kinetic potential in colloidal dispersions.
Through the testing done with zeta-sizers, it has been shown that
the strong negative charge of Nanobubbles limits their
coalescence, meaning the integrity of the bubble is preserved at
any depth for extended periods of time. Additionally, the negative
charge combined with their high concentration improves
separation efficiency in flotation processes by increasing collision
probability.
This unique property allows Wastewater, Oil and Gas and Mining
operators to float more suspended matter than through
conventional methods.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
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https://www.secure.supplies/nano-bubbles-on-demand
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The neutral buoyancy and negative surface charge of
Nanobubbles allows them to remain in suspension for months at
a time. This occurs even after the solution reaches Oxygen or
Hydrogen saturation.
In this capacity, the Nanobubbles act as a gas reserve in the
solution.
As Hydrogen/Oxygen is consumed from the water by biology,
chemistry, or off-gassing, the Nanobubbles rapidly diffuse more
Hydrogen/Oxygen into the water, maintaining elevated dissolved
Oxygen levels until the Nanobubbles are depleted.
This additional gas reserve, estimated up to 20% over the
saturation point, enables industries to utilize gases more cost
effectively than ever before.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
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https://www.secure.supplies/nano-bubbles-on-demand
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Nanobubbles have more than 400 times the surface area of a
typical microbubble, measured at 40 micrometers in diameter.
The larger surface area allows for increased mass transfer,
ensuring virtually any gas is effectively delivered to water.
Nanobubbles of this size are stable in liquid because they have
reached equilibrium with bubble surface tension, internal
pressure, external pressure, surface charge, and their
environment. Their stability and size give them neutral buoyancy.
The net effect is that, once injected, Nanobubbles are ready to
react - they remain suspended in solution and disperse until they
interact with surfaces or contaminants.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
6. Website
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https://www.secure.supplies/nano-bubbles-on-demand
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A key requirement of any Aeration/Saturation application is
efficient Oxygen transfer into the body of water. Conventional
Aeration systems transfer only 1% to 3% of Oxygen/Hydrogen
per foot of water due to their size and corresponding rapid rise
rate.
This makes conventional Aeration highly-inefficient. As a result,
Aeration is estimated to consume between 1 and 2% of the
world's energy, almost all of it going toward treating wastewaters.
Stanley A Meyer's technology leverages the unique properties of
Nanobubbles and delivers an industry-leading oxygen transfer
efficiency (OTE) of over 85% per foot of water.
The Nanobubbles' longevity in water, together with their high
surface area per volume, makes them the most efficient aeration
method on the market today and allow operators to significantly
reduce operating costs.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
7. Website
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DEVELOPMENT
https://www.secure.supplies/nano-bubbles-on-demand
Authorized Representative
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Zeta potential is a key indicator of the stability of colloidal
dispersions.
The higher the zeta potential, the more stable the behavior of the
colloidal particle. Nanobubbles have a high zeta potential,
meaning their interaction with surrounding colloidal particles is
stable compared to larger bubbles.
The higher zeta potential also causes excess ions to be formed
and the creation of free radicals. Free radicals are atoms with an
odd number of electrons that can be formed when Oxygen
interacts with certain molecules.
Free radicals are important to processes such as combustion,
atmospheric chemistry, polymerization, plasma chemistry,
biochemistry and other chemical reactions.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
8. Website
NEEDS ANALYSIS
&
DESIGN
DEVELOPMENT
https://www.secure.supplies/nano-bubbles-on-demand
Authorized Representative
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Nanobubbles are the smallest bubble size known, 500 times
smaller than a microbubble, or about the size of a virus.
At this scale, far more Nanobubbles can fit in the same volume
of water compared to other bubbles.
They also have several unique characteristics directly related to
their miniature size that includes neutral buoyancy, a strong
electric charge, and a high transfer efficiency.
Larger bubbles do not possess these characteristics, making
them less beneficial in a number of Larger bubbles do not
possess these characteristics, making them less beneficial in a
number of applications when compared to Stanley A Meyer's
Nanobubbles.
DESIGNED FOR
2020 & BEYOND
• Reformer Design,
• Fueling Design,
• Fuel Storage and
Delivery Systems,
• Heating System
Design,
• Fuel Cell Systems,
• Engines Systems,
• Safety System
Design,
• Monitoring Design,
• Operation and
Maintenance Planning.
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