Civil Engineering (CE) Exam > Civil Engineering (CE) Notes > Additional Documents & Tests for Civil Engineering (CE) > Recap - Flows Of Ideal Fluids
Recap - Flows Of Ideal Fluids | Additional Documents & Tests for Civil Engineering (CE) PDF Download
Recap
In this course you have learnt the following
- Irrotationality leads to the condition
which demands , where φ is known as a potential function. For a potential flow . - The stream function also obeys the Laplace’s equation for the potential flows. Laplace’s equation is linear, hence any number of particular solutions of Laplace’ s equation added together will yield another solution. So a complicated flow for an in viscid, incompressible, irrotational condition can be synthesized by adding together a number of elementary flows which are also inviscid, incompressible and irrotational. This is called the method of superposition.
- Some inviscid flow configurations of practical importance are solved by using the method of superposition. The circulation in a flow field is defined as . Subsequently , the velocity may be defined as circulation per unit area . The circulation for a closed path in an irrotational flow field is zero. However , the circulation for a given closed path is an irrotational flow containinga finite number of singular points is a non -zero constant.
- The lift around an immersed body is generated when the flow field processes circulation. The lift around a body of any shape is given by , where ρ is the density and U0 is the velocity in the streamwise direction.
which demands 
, where φ is known as a potential function. For a potential flow 
.
for the potential flows. Laplace’s equation is linear, hence any number of particular solutions of Laplace’ s equation added together will yield another solution. So a complicated flow for an in viscid, incompressible, irrotational condition can be synthesized by adding together a number of elementary flows which are also inviscid, incompressible and irrotational. This is called the method of superposition.
. Subsequently , the velocity may be defined as circulation per unit area . The circulation for a closed path in an irrotational flow field is zero. However , the circulation for a given closed path is an irrotational flow containinga finite number of singular points is a non -zero constant.
, where ρ is the density and U0 is the velocity in the streamwise direction.
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FAQs on Recap - Flows Of Ideal Fluids - Additional Documents & Tests for Civil Engineering (CE)
| 1. What is an ideal fluid? |  |
Ans. An ideal fluid is a theoretical concept used in fluid mechanics. It is a fluid that is assumed to have no viscosity, meaning it flows without any resistance. Additionally, an ideal fluid is also assumed to be incompressible, meaning its density remains constant regardless of the pressure applied to it.
| 2. What are the characteristics of an ideal fluid? | |
Ans. The characteristics of an ideal fluid include zero viscosity, incompressibility, and the absence of any internal friction. This means that an ideal fluid does not experience any resistance to flow, its density remains constant, and there are no energy losses due to friction within the fluid.
| 3. How are ideal fluids used in civil engineering? | |
Ans. Ideal fluids are used in civil engineering to simplify the analysis of fluid flow in various systems. They provide a theoretical basis for understanding and calculating the behavior of fluids in pipes, channels, and other hydraulic structures. By assuming an ideal fluid, engineers can make calculations and design decisions without the complexities of real fluid behavior.
| 4. What are some applications of ideal fluid flow in civil engineering? | |
Ans. Ideal fluid flow concepts are applied in various civil engineering applications, including the design of water supply systems, irrigation networks, and stormwater drainage systems. They are also used in the design of hydraulic structures such as dams, weirs, and spillways, as well as in the analysis of open channel flow and pipe networks.
| 5. What are the limitations of ideal fluid assumptions in civil engineering? | |
Ans. The assumptions of ideal fluid behavior have limitations in real-world civil engineering scenarios. Real fluids have viscosity, and their density can change with pressure and temperature. Therefore, the ideal fluid assumptions may not accurately represent the actual flow behavior and energy losses in hydraulic systems. Engineers need to consider these limitations and make appropriate adjustments when designing and analyzing real fluid flow in civil engineering projects.
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