Compressible Flow Fundamentals: High-Speed Gas Dynamics
Compressible Flow Fundamentals: High-Speed Gas Dynamics
Duration: 05:59:26 | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 2.09 GB
Genre: eLearning | Language: English
Duration: 05:59:26 | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 2.09 GB
Genre: eLearning | Language: English
Master Compressible Flow Fundamentals : High-Speed Gas Dynamics & Thermodynamics - Unlock Secrets of Compressible Flows
What you'll learn
Appreciate the consequences of compressibility in gas flow
Analyze one-dimensional isentropic compressible flow
Derive property relations for isentropic flow of ideal gases
Analyze compressible flows across a converging-diverging duct
Understand why a nozzle must have a diverging section to accelerate a gas to supersonic speeds
Predict the occurrence of shocks and calculate property changes across a shock wave
Requirements
Fundamentals of Fluid Mechanics
Fundamentals of Engineering Thermodynamics
Description
Master Compressible Flow Fundamentals: High-Speed Gas Dynamics & Thermodynamics on Udemy - Unlock the Secrets of Compressible Flows
Welcome to our comprehensive Udemy course on compressible flow, where we venture beyond the limitations of incompressible flow principles to thoroughly explore the world of compressible flows. These flows involve significant density changes and are frequently encountered in various high-speed gas devices and applications across a wide range of industries.
Our course is designed to provide a unique and in-depth understanding of compressible flow by seamlessly integrating fluid dynamics and thermodynamics principles. This approach creates a robust and well-rounded theoretical foundation, preparing you to analyze and solve complex problems involving compressible flow in ideal gases with constant specific heats.
We begin our journey by reviewing essential concepts, such as stagnation state, speed of sound, and Mach number. These foundational topics are crucial for gaining a solid grasp of the underlying principles of compressible flow dynamics.
Next, we explore the relationships between static and stagnation fluid properties in isentropic flows of ideal gases. We express these relationships as functions of specific heat ratios and the Mach number, which are vital for understanding the behavior of compressible flows.
Delving deeper, we examine the effects of area changes on one-dimensional isentropic subsonic and supersonic flows. This is demonstrated through an in-depth analysis of isentropic flow in converging and converging-diverging nozzles, showcasing the practical implications of these principles.
Lastly, we introduce the intriguing concept of shock waves, discussing their formation and the variations in flow properties across normal shock waves. This knowledge is critical for addressing real-world challenges related to high-speed gas flows and their associated phenomena.
Don't miss this opportunity to master compressible flow dynamics and elevate your understanding of high-speed gas flow and thermodynamics. Enroll now to unlock the secrets of compressible flows and enhance your skill set in this fascinating field!
Who this course is for:
Engineers and Scientists interested in Compressible Flow
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