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Page 1 INTRODUCTION: ? Laminar Flow: In this type of flow, fluid particles moves along smooth straight parallel paths in layers or laminas, with one layer gliding smoothly over an adjacent layer, the paths of individual fluid particles do not cross those of neighbouring particles. ? Turbulent Flow: In turbulent flow, there is an irregular random movement of fluid in transverse direction to the main flow. This irregular, fluctuating motion can be regarded as superimposed on the mean motion of the fluid. Page 2 INTRODUCTION: ? Laminar Flow: In this type of flow, fluid particles moves along smooth straight parallel paths in layers or laminas, with one layer gliding smoothly over an adjacent layer, the paths of individual fluid particles do not cross those of neighbouring particles. ? Turbulent Flow: In turbulent flow, there is an irregular random movement of fluid in transverse direction to the main flow. This irregular, fluctuating motion can be regarded as superimposed on the mean motion of the fluid. Laminar Transitional Turbulent Page 3 INTRODUCTION: ? Laminar Flow: In this type of flow, fluid particles moves along smooth straight parallel paths in layers or laminas, with one layer gliding smoothly over an adjacent layer, the paths of individual fluid particles do not cross those of neighbouring particles. ? Turbulent Flow: In turbulent flow, there is an irregular random movement of fluid in transverse direction to the main flow. This irregular, fluctuating motion can be regarded as superimposed on the mean motion of the fluid. Laminar Transitional Turbulent Page 4 INTRODUCTION: ? Laminar Flow: In this type of flow, fluid particles moves along smooth straight parallel paths in layers or laminas, with one layer gliding smoothly over an adjacent layer, the paths of individual fluid particles do not cross those of neighbouring particles. ? Turbulent Flow: In turbulent flow, there is an irregular random movement of fluid in transverse direction to the main flow. This irregular, fluctuating motion can be regarded as superimposed on the mean motion of the fluid. Laminar Transitional Turbulent ? Types of flow depend on the Reynold number , ?Vd Re = -------- µ ? Re < 2000 – flow is laminar ? Re > 2000 – flow is turbulent ? 2000 < Re < 4000 – flow changes from laminar to turbulent. Page 5 INTRODUCTION: ? Laminar Flow: In this type of flow, fluid particles moves along smooth straight parallel paths in layers or laminas, with one layer gliding smoothly over an adjacent layer, the paths of individual fluid particles do not cross those of neighbouring particles. ? Turbulent Flow: In turbulent flow, there is an irregular random movement of fluid in transverse direction to the main flow. This irregular, fluctuating motion can be regarded as superimposed on the mean motion of the fluid. Laminar Transitional Turbulent ? Types of flow depend on the Reynold number , ?Vd Re = -------- µ ? Re < 2000 – flow is laminar ? Re > 2000 – flow is turbulent ? 2000 < Re < 4000 – flow changes from laminar to turbulent. ? Magnitude of Turbulence : - It is the degree of turbulence, and measures how strong, violent or intence the turbulence. - Magnitude of Turbulence = Arithmetic mean of root mean square of turbulent fluctuations = = ? ? ? 2 ? ? ? ? ? ? ? ? t t dt 0 2 1 ?Read More
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FAQs on PPT: Turbulent Flow - Fluid Mechanics for Mechanical Engineering
| 1. What is turbulent flow? |  |
Ans. Turbulent flow is a type of fluid flow characterized by irregular and chaotic movement of the fluid particles. It is characterized by fluctuations in velocity, eddies, and vortices, making it highly unpredictable and difficult to analyze.
| 2. How is turbulent flow different from laminar flow? | |
Ans. Turbulent flow is different from laminar flow in terms of the fluid particle movement. While laminar flow is smooth, orderly, and predictable, turbulent flow is irregular, chaotic, and highly unpredictable. Turbulent flow also has a higher momentum transfer and energy dissipation compared to laminar flow.
| 3. What causes turbulent flow? | |
Ans. Turbulent flow is primarily caused by high fluid velocities and disturbances in the flow, such as obstacles, sudden changes in direction, or rough surfaces. These disturbances create eddies and vortices, leading to turbulent flow.
| 4. Is turbulent flow desirable in certain applications? | |
Ans. Turbulent flow can be desirable in certain applications, such as mixing and heat transfer processes. The chaotic movement of fluid particles in turbulent flow enhances the exchange of momentum, mass, and heat, making it more efficient for these processes.
| 5. How is turbulent flow measured or quantified? | |
Ans. Turbulent flow can be measured or quantified using various parameters, such as Reynolds number, turbulence intensity, and power spectral density. Reynolds number is a dimensionless quantity that compares the inertial forces to the viscous forces in the flow and determines the flow regime (turbulent or laminar). Turbulence intensity is a measure of the fluctuations in velocity, while power spectral density analyzes the frequency content of the turbulent flow.
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