Understanding the Coanda Profile and Its Effects

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In summary, the Coanda effect is a phenomenon in which a smoke stream in a wind tunnel follows a curved surface and entrains air from the main flow, resulting in reduced pressure at the surface. This effect is caused by the interaction of the flow with static particles in the boundary layer of the surface. While some may confuse the Coanda effect with Bernoulli's equation, they are not the same as the Coanda effect is caused by shearing, unsteady flow and does not follow the principles of energy conservation. The explanation for this effect is still a topic of debate, but it is clear that it is caused by interactions between fluid particles and the surface.
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Shridhar .S
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Can some one spread more light on coanda profile its effects ,calculations etc
 
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The Coanda effect in air is the fact 1) a smoke stream in a wind tunnel follows a surface that gently curves away from the direction of the flow and 2) air from the main flow is entrained to follow the surface. It is caused by the reduced pressure at the surface. Why is the pressure reduced there? Because the interaction of the flow with the static particles in the boundary layer of the surface blows particles away from the surface. Fewer particles, lower pressure. If the Coanda effect could be used to reduce the pressure at the surface to 0 (a VERY ambitious task), there would remain 14.7psi pressure on the other side of the body. A VERY large pressure. To exploite the Coanda effect is to manage buoyancy.
 
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Coanda effect

Some people conflate the Coanda effect and effects covered by Bernoulli's equation (a statement of the conservation of energy). Because the Coanda effect is caused by the shearing, unsteady flow near a surface, Bernoulli's equation doesn't hold. (See Landau & Lif****z "Fluid Mechanics" and read carefully the section on the Bernoulli equation.) Beware, this topic is very sensitive and rhetoric waxes religious in its fervor. There is nothing magic about the Coanda effect. It is well-known, so its existence isn't in question. Its explanation is, however. Hint: it is caused by the interaction of fluid particles with each other and with the surface. Bernoulli's equation assumes no such interactions.
 

What is the Coanda profile and how does it work?

The Coanda profile is a curved surface that is designed to generate lift and directional control for aircraft and other objects in fluid flow. It works by utilizing the Coanda effect, which is the tendency of a fluid flow to follow a curved surface instead of continuing in a straight path. This creates a low-pressure area on the curved surface, resulting in lift and the ability to control the direction of the object.

What are the practical applications of the Coanda profile?

The Coanda profile has a variety of practical applications, including use in aircraft design, wind turbines, and even household appliances such as hair dryers. It is also being studied for potential use in medical devices and propulsion systems for underwater vehicles.

How does the Coanda profile differ from traditional airfoils?

The Coanda profile differs from traditional airfoils in that it utilizes a curved surface rather than a flat or slightly curved surface. This allows for more efficient lift and control capabilities, as well as the ability to operate at lower speeds and angles of attack.

Are there any limitations or drawbacks to using the Coanda profile?

While the Coanda profile has many advantages, there are also some limitations and drawbacks to consider. These include the potential for flow separation at higher speeds, as well as increased complexity and cost in design and manufacturing compared to traditional airfoils.

How do scientists continue to study and improve the Coanda profile?

Scientists continue to study the Coanda profile through computational fluid dynamics simulations, wind tunnel testing, and experimental flight testing. They also explore new materials and manufacturing techniques to further improve its performance and efficiency.

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