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Xavier Amandolese, Olivier Doaré, and Emmanuel de Langre

What is fluid-solid interactions ? It is what happens when the motions of a fluid and of a solid are somehow coupled. This happens all the time, around you when leaves flutter in the wind, inside you when your heart beats, above you when wings of a plane vibrate, under the sea... The idea behind this MOOC is to give you the basic tools to be able to predict and eventually mitigate things called flutter, galloping, sloshing, vortex-induced vibrations, added mass, to cite a few.

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What is fluid-solid interactions ? It is what happens when the motions of a fluid and of a solid are somehow coupled. This happens all the time, around you when leaves flutter in the wind, inside you when your heart beats, above you when wings of a plane vibrate, under the sea... The idea behind this MOOC is to give you the basic tools to be able to predict and eventually mitigate things called flutter, galloping, sloshing, vortex-induced vibrations, added mass, to cite a few.

We are going to consider any possible domains of applications such as civil engineering, aerospace engineering, nuclear engineering , ocean engineering, biomechanics and even food processing !

This is why we called the course “Fundamentals of Fluid Solid Interactions ”. There are so many phenomena and so many models that we need to work together on the basic mechanisms .

If you want to see how fluid-solid interactions work, and be able to use that knowledge, join us !

A first session of the course was run in early 2016, with learners from over 100 countries. It is now available with subtitles, in English and now in Chinese.

See the video at http://goo.gl/YKSMnD

Enroll now

What's inside

Syllabus

Fundamentals
A solid with a still fluid
Viscosity and gravity effects
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Coupling with a fast flow
Coupling with a slow flow
Coupling with any flow

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
This course, Fundamentals of Fluid Solid Interactions, is well suited for engineers and scientists
Instructors Xavier Amandolese, Olivier Doaré, and Emmanuel de Langre are recognized for their work in fluid dynamics
By delving into the fundamental mechanisms, this course establishes a solid foundation for understanding fluid-solid interactions
With applications spanning civil engineering to biomechanics, this course has broad relevance across fields

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Reviews summary

Grasp the essentials of fluid-solid interactions

Learners say this course is largely positive, with instructors effectively explaining advanced concepts in Fluid-Structure Interaction. Concepts are presented with engaging assignments, experiments, and research videos. However, some learners note that a solid background in fluid mechanics, vibrations, and mathematics is preferred.
The course structure for this course is organized and well-paced.
"The course is well structured"
"Excellent. A bit hard, solid bases needed. Probably more time needed between Units (Weeks)."
Students generally find the course easy to understand.
"It is very easy to follow the lectures and able to understand many complex problems."
Students greatly appreciate the visual demonstrations such as experiments and research videos.
"It is an intermediate paper explaining the concepts & applications of aero - elasticity, vibrations and structural interactions with a fluid flow."
"The extra videos on various research topics enlightened us as to how different concepts in FSI are put into practice."
Students should have some background knowledge.
"Very good course, I would have loved if the course had delved into mathematics, because maths can help us a little bit more in the comprehension of the physics, that could create a more compact background of these wonderful physical topics."
Learners state that this course has difficult concepts to grasp.
"The concepts were really difficult to learn"
"The content of this course is pretty difficult"

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Fundamentals of Fluid-Solid Interactions with these activities:
Review Calculus and Linear Algebra
Strengthen your mathematical foundation by reviewing calculus and linear algebra concepts essential for fluid-solid interactions.
Browse courses on Calculus
Show steps
  • Revisit fundamental calculus concepts, including derivatives, integrals, and vector operations
  • Review linear algebra, focusing on matrices, vectors, and linear transformations
Review classical mechanics
It will be helpful to have a foundation in classical mechanics to better understand the behavior of fluids and solids and their interactions.
Browse courses on Classical Mechanics
Show steps
  • Review key concepts like Newton's laws of motion, energy, and momentum.
  • Solve problems involving forces, motion, and energy.
  • Apply classical mechanics concepts to real-world examples.
Review Fluid Dynamics
Reinforce knowledge of foundational fluid dynamics concepts to better prepare for this course
Browse courses on Fluid Dynamics
Show steps
  • Review basic fluid properties, including density, viscosity, and pressure
  • Recall the principles of fluid statics, including buoyancy and hydrostatic pressure
  • Go over the fundamental equations of fluid dynamics, such as the continuity equation, the Navier-Stokes equations, and the Bernoulli equation
Eight other activities
Expand to see all activities and additional details
Show all 11 activities
Explore Fluid-Solid Interaction Software
Familiarize yourself with industry-standard software for fluid-solid interaction simulations, enhancing your practical skills.
Show steps
  • Identify and research available fluid-solid interaction software
  • Complete tutorials and online courses on the software's features and applications
Practice Fluid Dynamics Concepts
Enhance your understanding of fundamental fluid dynamics concepts through problem-solving and simulations.
Browse courses on Fluid Dynamics
Show steps
  • Review key fluid dynamics concepts
  • Solve practice problems on basic fluid properties and principles
  • Utilize simulations to visualize and analyze fluid flow patterns
Explore online simulations of fluid-solid interactions
Hands-on simulations can provide valuable insights into the complex interactions between fluids and solids.
Show steps
  • Find reputable online simulation platforms or software.
  • Select simulations relevant to the course topics.
  • Experiment with different parameters and observe the effects on fluid-solid interactions.
Solve practice problems and exercises on fluid-solid interactions
Solving practice problems will help you develop your problem-solving skills and deepen your understanding of the concepts.
Show steps
  • Findpractice problems and exercises in textbooks, online resources, or MOOC platforms.
  • Attempt to solve the problems independently.
  • Check your solutions against provided answers or consult with instructors or peers.
Join a Fluid-Solid Interactions Study Group
Engage with peers, discuss concepts, and reinforce your understanding by participating in a fluid-solid interactions study group.
Show steps
  • Join or form a study group with fellow learners
  • Collaborate on problem-solving and assignments
  • Present and discuss findings from your fluid-solid interaction experiment design
Participate in online discussion forums and study groups
Engaging with peers can provide diverse perspectives, clarify concepts, and enhance your overall learning experience.
Show steps
  • Identify relevant online forums or study groups focused on fluid-solid interactions.
  • Participate actively in discussions, ask questions, and share your understanding.
  • Collaborate with peers on projects or assignments.
Design a Fluid-Solid Interaction Experiment
Develop hands-on experience by designing an experiment to investigate fluid-solid interactions and analyze the results.
Show steps
  • Identify a specific fluid-solid interaction phenomenon to investigate
  • Design the experimental setup, including selection of materials, fluids, and measurement techniques
  • Conduct the experiment and collect data
  • Analyze the data and present your findings
Design and build a simple fluid-solid interaction experiment
Designing and conducting an experiment will reinforce your understanding of the principles and allow you to observe these interactions firsthand.
Show steps
  • Identify a specific fluid-solid interaction phenomenon to investigate.
  • Design an experimental setup and choose appropriate materials.
  • Build the experiment and conduct the tests.
  • Analyze the results and draw conclusions.
  • Present your findings in a report or presentation.

Career center

Learners who complete Fundamentals of Fluid-Solid Interactions will develop knowledge and skills that may be useful to these careers:
Computational Fluid Dynamics Engineer
Computational Fluid Dynamics Engineers use computer simulations to model and analyze fluid flow. They may work in a variety of industries, including aerospace, automotive, and energy. This course may be useful for a Computational Fluid Dynamics Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the development of CFD models for a variety of applications.
Aerospace Engineer
Aerospace Engineers design, develop, test, and operate aircraft, spacecraft, and missiles. They may work in a variety of industries, including aviation, defense, and space exploration. This course may be useful for an Aerospace Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of aircraft wings, spacecraft hulls, and other components that are subject to fluid-solid interactions.
Ocean Engineer
Ocean Engineers design, build, and operate structures and systems for use in the ocean. They may work in a variety of industries, including offshore oil and gas, marine transportation, and renewable energy. This course may be useful for an Ocean Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of offshore platforms, ships, and other structures that are subject to fluid-solid interactions.
Mechanical Engineer
Mechanical Engineers design, build, and operate machines and mechanical systems. They may work in a variety of industries, including manufacturing, transportation, and energy. This course may be useful for a Mechanical Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of engines, turbines, and other machines that are subject to fluid-solid interactions.
Structural Engineer
Structural Engineers design and analyze structures, such as buildings, bridges, and towers. They may work in a variety of industries, including construction, transportation, and aerospace. This course may be useful for a Structural Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of structures that are subject to fluid-solid interactions, such as wind and earthquake forces.
Civil Engineer
Civil Engineers design, build, and maintain infrastructure, such as roads, bridges, and buildings. They may work in a variety of industries, including construction, transportation, and water resources. This course may be useful for a Civil Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of bridges, dams, and other structures that are subject to fluid-solid interactions.
Water Resources Engineer
Water Resources Engineers design and manage water resources systems, such as dams, canals, and reservoirs. They may work in a variety of industries, including water utilities, government agencies, and environmental consulting firms. This course may be useful for a Water Resources Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of dams, flood control structures, and other water resources systems that are subject to fluid-solid interactions.
Biological Engineer
Biological Engineers apply engineering principles to solve problems in biology and medicine. They may work in a variety of industries, including healthcare, pharmaceuticals, and biotechnology. This course may be useful for a Biological Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of medical devices, tissue engineering, and other applications where fluid-solid interactions are important.
Environmental Engineer
Environmental Engineers design, build, and operate systems to protect the environment. They may work in a variety of industries, including water treatment, air pollution control, and waste management. This course may be useful for an Environmental Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of water treatment plants, air pollution control devices, and other systems that are subject to fluid-solid interactions.
Nuclear Engineer
Nuclear Engineers design, build, and operate nuclear power plants. They may also work on the development of nuclear weapons and other nuclear technologies. This course may be useful for a Nuclear Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of nuclear reactors and other nuclear components that are subject to fluid-solid interactions.
Chemical Engineer
Chemical Engineers design, develop, and operate chemical plants and processes. They may work in a variety of industries, including chemicals, pharmaceuticals, and energy. This course may be useful for a Chemical Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of chemical reactors, pipelines, and other components that are subject to fluid-solid interactions.
Petroleum Engineer
Petroleum Engineers design, build, and operate oil and gas wells. They may also work on the development of new technologies for oil and gas production. This course may be useful for a Petroleum Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of oil and gas wells, pipelines, and other components that are subject to fluid-solid interactions.
Materials Scientist
Materials Scientists research and develop new materials for a variety of applications. They may work in a variety of industries, including aerospace, automotive, and electronics. This course may be useful for a Materials Scientist because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the development of new materials for use in a variety of applications, such as aircraft wings, spacecraft hulls, and medical devices.
Systems Engineer
Systems Engineers design, build, and operate complex systems, such as aircraft, spacecraft, and medical devices. They may work in a variety of industries, including aerospace, defense, and healthcare. This course may be useful for a Systems Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of systems that are subject to fluid-solid interactions, such as aircraft wings and spacecraft hulls.
Robotics Engineer
Robotics Engineers design, build, and operate robots. They may work in a variety of industries, including manufacturing, healthcare, and space exploration. This course may be useful for a Robotics Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of robots that can operate in a variety of environments, such as underwater or in space.
Acoustics Engineer
An Acoustics Engineer designs and develops equipment to control and manage sound. They may work in a variety of industries, including manufacturing, construction, and entertainment. This course may be useful for an Acoustics Engineer because it would provide them with a foundation in fluid-solid interactions. This knowledge could be applied to the design of soundproofing materials, acoustic panels, and other devices that control sound.

Reading list

We've selected 26 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Fundamentals of Fluid-Solid Interactions.
A seminal text, this book lays the groundwork for understanding fluid-structure interaction phenomena and their applications in engineering.
A comprehensive reference on computational methods for fluid-structure interactions, covering both theoretical foundations and practical applications.
Is an advanced textbook on structural dynamics, which is an essential topic in fluid-structure interaction. It provides a detailed and comprehensive treatment of the subject matter.
A comprehensive reference on finite element methods for fluid dynamics, covering both theoretical and practical aspects of fluid-structure interaction modeling.
This textbook is about the mathematical theory of fluid-structure interaction. It good reference for those who are interested in the theoretical aspects of fluid-solid interactions.
Provides a comprehensive overview of computational fluid dynamics, which is essential for simulating and analyzing fluid-solid interactions. It covers both the numerical methods and practical applications, empowering learners to solve complex fluid flow problems.
Provides a comprehensive overview of the finite element method, which powerful tool for simulating fluid-solid interactions. It covers both the theoretical foundations and practical applications, enabling learners to develop computational models for various engineering problems.
This textbook comprehensive introduction to computational fluid dynamics. It good reference for those who are interested in the numerical simulation of fluid-solid interactions.
Provides a solid foundation in partial differential equations, which are essential for modeling and analyzing fluid-solid interactions. It covers both analytical and numerical techniques, equipping learners with the tools to solve complex problems.
This handbook provides a comprehensive collection of fluid dynamics principles, equations, and data. It serves as a valuable reference for learners seeking to supplement their understanding of the fluid mechanics aspects of fluid-solid interactions.
Although primarily focused on fluid mechanics, this book provides a solid foundation in the fundamental principles that govern fluid-structure interactions.
This textbook practical guide to fluid mechanics. It good reference for those who are interested in the applications of fluid mechanics.
This textbook is an introduction to the finite element method. It good reference for those who are interested in the numerical simulation of fluid-solid interactions.
This textbook is an introduction to the vibration of continuous systems. It good reference for those who are interested in the dynamics of fluid-solid interactions.
As a prerequisite for understanding fluid-solid interactions, this book provides a solid foundation in fluid mechanics and heat transfer. It covers fundamental concepts and principles that are essential for comprehending the course material.
Provides a comprehensive foundation in fluid mechanics, offering a detailed treatment of fundamental principles and applications. It would be a valuable resource for learners seeking to strengthen their understanding of the fluid dynamics aspects of fluid-solid interactions.
Provides a practical perspective on aerospace structures, emphasizing the design and analysis of aircraft components that are subject to fluid-solid interactions, such as wings and fuselages.
A classic German-language textbook on fluid mechanics that includes a section on fluid-structure interactions.
Contains material that could address some of the more advanced theoretical principles behind fluid-solid interaction that may be useful for understanding some of the mathematical underpinnings.
A textbook that explores the application of fluid mechanics principles to the study of biological systems, including fluid-structure interactions in the human body.
A widely used textbook that provides a gentle introduction to computational fluid dynamics, including a chapter on fluid-structure interactions.
This classic textbook is useful as a reference for theoretical background in fluid mechanics. is best used for supplementary reading on the mathematics behind the course material.
This textbook covers the fundamental principles of viscous fluid flows and can be used as a good reference for supplementary reading.
Provides a comprehensive overview of the field of structural dynamics, covering both theoretical and practical aspects. It valuable resource for students, researchers, and engineers working in this area.

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