Udemy – Advanced Fluid Mechanics & Computational Fluid Dynamics 2024-11

Advanced Fluid Mechanics & Computational Fluid Dynamics. Dive deep into the intricate world of Fluid Mechanics and experience the awe-inspiring symphony of fluidic behavior that powers our natural and engineered systems. From the foundational concepts of Newton’s laws applied to fluids to the complex calculations needed for engineering problem-solving, this course offers a comprehensive understanding of fluid motion and its critical role in both natural phenomena and man-made inventions. Grasp the nuances of continuity equations, momentum conservation, and the beauty of Navier-Stokes’ equations, as they govern fluid flow. Embark on a journey through the intricacies of turbomachines, exploring their classifications, working principles, and applications. Delve into the dynamics of boundary layers, from their genesis to their effect on the bodies in flow.

Engage in the fascinating realm of external flow, uncovering the principles behind drag, lift, and the magnificent designs of airfoils. Finally, stands at the forefront of technological advancement with an introduction to Computational Fluid Dynamics (CFD), exploring the realm of numerical simulations that push the boundaries of engineering capabilities. This course isn’t just about learning theories but bridging the chasm between theory and real-world application. By the end, you will not only understand the mathematics behind fluid motion but will gain a profound appreciation for its relevance in shaping the world around us. Whether you aspire to design advanced aerostructures, engineer efficient transportation systems, or merely satiate an academic curiosity, this course is a key milestone in your journey of discovery and innovation.

What you’ll learn

• Provide an introductory overview of Fluid Mechanics tailored to beginner learners, covering fundamental principles and engaging course content.
• Present a comprehensive derivation and detailed explanation of the continuity equation, accompanied by illustrative examples and numerical problem-solving.
• Gain a thorough understanding of the momentum equation, both in its general form and in its differential form, along with practical applications.
• Explore the Navier-Stokes Equation, comprehending its significance and wide-ranging applications in fluid dynamics.
• Acquire a comprehensive understanding of the Reynolds Transport Theorem, including its derivation and practical implications.
• Develop a solid grasp of linear and angular momentum equations and their relevance in fluid mechanics.
• Dive into a detailed examination of the kinematics of various flow types, encompassing a comprehensive exploration of their characteristics.
• Explore the principles of Potential Flow and delve into the concept of superposition, including in-depth discussions of its three types.
• Gain insights into Turbo Machines, including the application of Euler’s Equation, analysis of blade angles, and evaluating performance factors.
• Obtain in-depth information about turbines, including their operational characteristics and performance evaluation.
• Familiarize yourself with the core concepts of Boundary Layer, including order analysis over flat plates, turbulent flow over flat plates, the Blasius solution.
• Develop an understanding of External Flow concepts, focusing on topics such as Drag Coefficient and its significance in vehicle aerodynamics.
• Explore the fundamental principles of Airfoil and delve into an analysis of its performance characteristics.

Who this course is for

• Engineers: The course is designed to cater to engineers from various disciplines who require a strong understanding of fluid mechanics in their respective fields, such as mechanical, civil, chemical, and aerospace engineers.
• Students: This course is suitable for undergraduate and graduate students studying engineering or related disciplines who are seeking to build a solid foundation in fluid mechanics as part of their academic curriculum.
• Professionals: The course also appeals to professionals working in industries where fluid dynamics plays a crucial role, such as automotive, aerospace, energy, and manufacturing. It provides them with an opportunity to enhance their knowledge and skills in fluid mechanics for practical applications.
• Researchers and Academics: Individuals involved in research or academia, including professors, researchers, and postgraduate students, can benefit from the course as it covers fundamental concepts and advanced topics, enabling them to delve deeper into the subject and explore new areas of study.
• Individuals seeking career advancement: Professionals looking to broaden their skill set and increase their career prospects in fields related to fluid mechanics, such as computational fluid dynamics (CFD), hydraulic engineering, or fluid system design, can find this course beneficial in advancing their knowledge and expertise.

Specificatoin of Advanced Fluid Mechanics & Computational Fluid Dynamics

• Publisher : Udemy
• Teacher : OZIS Academy
• Language : English
• Level : All Levels
• Number of Course : 45
• Duration : 29 hours and 5 minutes

Content of Advanced Fluid Mechanics & Computational Fluid Dynamics

Requirements

• Basic knowledge of physics and chemistry, including an understanding of fundamental concepts related to forces, motion, energy, and basic chemical principles.
• Proficiency in mathematics, particularly in calculus, differential equations, and algebra, to effectively solve equations and perform mathematical analyses in fluid mechanics.

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Subtitle : English

Quality: 720

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Download Part 3 – 2 GB

Download Part 4 – 827 MB

File size

6.8 GB