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The "Industrial Fluid System & Smart Factory Automation" course represents a pivotal opportunity for individuals seeking to delve into the cutting-edge intersection of fluid dynamics, electrical drives, and smart automation technologies. With three comprehensive modules, participants embark on a transformative journey, exploring the intricacies of fluid and electrical drive systems, fluid circuit design, and the implementation of smart factory automation solutions. This course caters to a diverse audience, including undergraduate students of Mechanical & Mechatronics Engineering, students specializing in robotics & automation, post-graduate students of Mechanical Engineering & Computer-Aided Manufacturing Engineering, as well as practicing engineers in automation environments.

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The "Industrial Fluid System & Smart Factory Automation" course represents a pivotal opportunity for individuals seeking to delve into the cutting-edge intersection of fluid dynamics, electrical drives, and smart automation technologies. With three comprehensive modules, participants embark on a transformative journey, exploring the intricacies of fluid and electrical drive systems, fluid circuit design, and the implementation of smart factory automation solutions. This course caters to a diverse audience, including undergraduate students of Mechanical & Mechatronics Engineering, students specializing in robotics & automation, post-graduate students of Mechanical Engineering & Computer-Aided Manufacturing Engineering, as well as practicing engineers in automation environments.

A solid foundation is laid through the prerequisites of the course, covering basics on industrial manufacturing, fundamentals of introductory mechatronics, introductory electronics, applied physics, and fundamentals of fluid mechanics & machinery. Armed with this multidisciplinary knowledge, participants are primed to delve into the complexities of industrial fluid systems and smart factory automation.

The first module, "Fluid and Electrical Drive Systems," serves as the cornerstone of the course, offering participants a comprehensive understanding of electrical drives and control systems for machine tools and robots. Participants will explore the selection and implementation of electrical drives, along with troubleshooting techniques to ensure optimal performance. Additionally, the module delves into industrial hydraulics and pneumatics for automation, equipping participants with the skills to design electro-hydro-pneumatic systems tailored to specific industrial requirements.

In the second module, "Fluid Circuit Systems," participants dive deeper into the design and implementation of fluid circuit systems essential for efficient operation in industrial environments. Through a combination of theoretical concepts and practical exercises, participants gain proficiency in designing and optimizing fluid systems to meet the demands of diverse applications.

The final module, "Smart Factory Automation," explores the integration of advanced automation technologies to create intelligent, interconnected manufacturing environments. Participants will delve into topics such as industrial remote monitoring, smart material flow, IIoT (Industrial Internet of Things) in smart factories, digital twins, and industrial data analytics. Through hands-on projects and case studies, participants will learn to design and implement smart factory automation solutions, revolutionizing efficiency and productivity in industrial settings.

Upon completion of this course, participants will emerge with a diverse set of skill sets essential for success in the field of industrial fluid systems and smart factory automation. From choosing the right electrical and hydraulic-pneumatic drives to designing and troubleshooting fluid systems, participants will possess the expertise to tackle real-world challenges with confidence. Furthermore, participants will be equipped to apply IIoT technologies for remote monitoring and predictive maintenance, ensuring the health and efficiency of machinery in industrial environments.

In conclusion, the "Industrial Fluid System & Smart Factory Automation" course offers a transformative learning experience for individuals aspiring to excel in the dynamic field of smart manufacturing. Through a blend of theoretical knowledge, practical skills, and hands-on experience, participants emerge as innovators poised to make meaningful contributions to the future of industrial automation and efficiency.

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What's inside

Syllabus

Fluid and Electrical Drive Systems
Explore the essence of fluid power in modern machinery, emphasizing hydraulic and pneumatic actuators' pivotal role. Delve into hydraulic pumps, actuators, and pneumatic systems, showcasing their application diversity and efficiency in heavy-duty and precision tasks within machine tools. Additionally, learn about troubleshooting techniques and the integration of digital motors and servo systems for enhanced precision and control in manufacturing operations.
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Fluid Circuit Systems
Discover the intricacies of pneumatic and hydraulic circuits, from their essential components to their roles in sequential and simultaneous operations. Delve into troubleshooting methods for diagnosing issues like leaks and pressure fluctuations, ensuring the reliability and efficiency of fluid-based systems in manufacturing applications.
Smart Factory Automation
Explore the transformative potential of Smart Factories, leveraging IoT, AI, and robotics to optimize production, enhance energy efficiency, and facilitate predictive maintenance. Smart Energy Management Systems and Industrial Remote Monitoring enhance sustainability and minimize downtime, while technologies like Digital Twins and AGVs streamline processes for improved efficiency and flexibility in manufacturing.

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Examines fluid dynamics, electrical drives, and smart automation, which are critical topics for the future of manufacturing
Taught by Subject Matter Experts, providing learners with access to industry knowledge and expertise
Covers essential prerequisites, ensuring all learners start from a solid foundation
Develops troubleshooting techniques for electrical drives, fluid systems, and smart factory automation systems, empowering learners to solve real-world challenges
Provides hands-on projects and case studies, allowing learners to apply their knowledge and skills in practical scenarios
Suitable for diverse audience, including undergraduate and postgraduate students, as well as practicing engineers, providing a comprehensive learning experience for all skill levels

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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 Industrial Fluid systems & Smart Factory Automation with these activities:
Review Basic Fluid Dynamics
Reinforce your foundational understanding of fluid dynamics to enhance your comprehension of fluid circuits and systems in industrial applications.
Browse courses on Fluid Dynamics
Show steps
  • Revisit concepts of fluid statics, pressure, and buoyancy.
  • Review equations and principles governing fluid flow, including Bernoulli's equation and Reynolds number.
  • Practice solving problems related to fluid flow rates, pressure drops, and fluid properties.
Review fluid mechanics and machinery
Refresh your memory on basic concepts of fluid mechanics and machinery, which will enhance your understanding of industrial fluid systems.
Browse courses on Fluid Mechanics
Show steps
  • Review fluid properties, such as density, viscosity, and pressure.
  • Understand the concept of fluid flow and its governing equations.
  • Learn about different types of pumps and their applications.
  • Understand the working principles of turbines and their use in energy generation.
Electrical Drive and Control System Exercises
Enhance your understanding of electrical drive and control systems by solving practice problems and exercises.
Show steps
  • Analyze different types of electrical motors and their applications.
  • Practice designing and implementing motor control algorithms.
  • Simulate and troubleshoot motor control systems using software or physical setups.
Six other activities
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Complete online tutorials on electrical drives and control systems
Explore online tutorials to gain a deeper understanding of electrical drives and control systems used in industrial automation.
Show steps
  • Find reputable sources for online tutorials on electrical drives and control systems.
  • Follow the tutorials step-by-step, taking notes and experimenting with the provided examples.
  • Practice implementing the concepts learned in the tutorials through simulations or small projects.
Design and Simulate a Hydraulic Circuit
Apply your knowledge of fluid power and hydraulics to design and simulate a functional hydraulic circuit for a specific industrial application.
Browse courses on Hydraulic Systems
Show steps
  • Identify the purpose and specifications of the hydraulic circuit.
  • Select appropriate hydraulic components (pumps, actuators, valves, etc.) based on design requirements.
  • Create a schematic diagram of the hydraulic circuit.
  • Simulate the circuit using software or physical prototyping to verify functionality.
Attend a workshop on industrial fluid systems or smart factory automation
Attend an industry workshop to gain practical insights and interact with experts in the field.
Show steps
  • Research and identify relevant workshops in your area or online.
  • Register for the workshop and make necessary arrangements for attendance.
  • Attend the workshop, actively participate in discussions, and take detailed notes.
  • Follow up with speakers or attendees to expand your network and seek further guidance.
Smart Factory Automation with IoT and IIoT
Explore the latest trends and technologies in smart factory automation by following guided tutorials and case studies.
Browse courses on Smart Factories
Show steps
  • Investigate the benefits and challenges of implementing IoT and IIoT in manufacturing.
  • Learn about data collection, analysis, and visualization techniques for industrial automation.
  • Review case studies of successful smart factory implementations.
Participate in online discussion forums or study groups
Engage with fellow students or industry professionals to share knowledge, ask questions, and strengthen your understanding of course concepts.
Show steps
  • Identify and join relevant online discussion forums or study groups.
  • Actively participate in discussions by asking thoughtful questions, sharing insights, and providing support to others.
  • Engage in collaborative learning activities, such as group projects or problem-solving sessions.
Develop a presentation on smart factory automation
Create a presentation that showcases your understanding of smart factory automation technologies and their applications in the industry.
Show steps
  • Research and gather information on smart factory automation technologies, such as IoT, AI, and robotics.
  • Structure your presentation with a clear introduction, body, and conclusion.
  • Use visuals, examples, and case studies to illustrate your points.
  • Practice delivering your presentation to refine your communication skills.

Career center

Learners who complete Industrial Fluid systems & Smart Factory Automation will develop knowledge and skills that may be useful to these careers:
Hydraulic Engineer
A Hydraulic Engineer designs and builds fluid power systems, such as those used in construction, mining, and manufacturing equipment. This course will provide you with the knowledge and skills you need to succeed in this role, including an understanding of hydraulic system fundamentals, fluid circuits and controls, and smart factory automation. You will also gain hands-on experience with hydraulic systems through projects and case studies.
Pneumatic Engineer
A Pneumatic Engineer designs and builds systems that use compressed air to power tools and machinery. This course will give you the skills and knowledge you need to be successful in this field, including an understanding of pneumatic system fundamentals, fluid circuits and controls, and smart factory automation. You will also gain hands-on experience with pneumatic systems through projects and case studies.
Fluid Power Technician
A Fluid Power Technician installs, maintains, and repairs fluid power systems. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of fluid power system fundamentals, troubleshooting techniques, and smart factory automation. You will also gain hands-on experience with fluid power systems through projects and case studies.
Mechatronics Engineer
A Mechatronics Engineer designs and builds systems that combine mechanical, electrical, and computer engineering. This course will help you build a foundation in fluid dynamics, electrical drives, and smart factory automation, which are all essential skills for Mechatronics Engineers. You will also gain hands-on experience with these technologies through projects and case studies.
Automation Engineer
An Automation Engineer designs, builds, and maintains automated systems. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of automation fundamentals, smart factory automation, and industrial remote monitoring. You will also gain hands-on experience with automated systems through projects and case studies.
Robotics Engineer
A Robotics Engineer designs, builds, and maintains robots. This course will help you build a foundation in fluid dynamics, electrical drives, and smart factory automation, which are all essential skills for Robotics Engineers. You will also gain hands-on experience with these technologies through projects and case studies.
Industrial Engineer
An Industrial Engineer designs and improves processes and systems in manufacturing and other industries. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of industrial engineering fundamentals, fluid power systems, and smart factory automation. You will also gain hands-on experience with these technologies through projects and case studies.
Manufacturing Engineer
A Manufacturing Engineer designs and builds production systems. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of manufacturing engineering fundamentals, fluid power systems, and smart factory automation. You will also gain hands-on experience with these technologies through projects and case studies.
Project Engineer
A Project Engineer manages engineering projects. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of project management fundamentals, fluid power systems, and smart factory automation. You will also gain hands-on experience with these technologies through projects and case studies.
Maintenance Engineer
A Maintenance Engineer maintains and repairs equipment and systems. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of maintenance engineering fundamentals, fluid power systems, and smart factory automation. You will also gain hands-on experience with these technologies through projects and case studies.
R&D Engineer
A Research and Development Engineer develops new products and technologies. This course will help you build a foundation in fluid dynamics, electrical drives, and smart factory automation, which are all essential skills for R&D Engineers. You will also gain hands-on experience with these technologies through projects and case studies.
Test Engineer
A Test Engineer tests products and systems to ensure they meet specifications. This course will provide you with the knowledge and skills you need to be successful in this role, including an understanding of testing fundamentals, fluid power systems, and smart factory automation. You will also gain hands-on experience with these technologies through projects and case studies.
Sales Engineer
A Sales Engineer sells products and services. This course may be useful if you are interested in a career as a Sales Engineer in the fluid power or automation industry. You will gain knowledge of fluid power systems, electrical drives, and smart factory automation technologies that you can use to help your customers make informed decisions about their purchases.
Product Manager
A Product Manager develops and markets products. This course may be useful if you are interested in a career as a Product Manager in the fluid power or automation industry. You will gain knowledge of fluid power systems, electrical drives, and smart factory automation technologies that you can use to help your company develop and market successful products.
Business Development Manager
A Business Development Manager develops and implements business strategies. This course may be useful if you are interested in a career as a Business Development Manager in the fluid power or automation industry. You will gain knowledge of fluid power systems, electrical drives, and smart factory automation technologies that you can use to help your company grow its business.

Reading list

We've selected ten 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 Industrial Fluid systems & Smart Factory Automation.
Provides a fundamental understanding of fluid power systems, components, and their applications. It covers the basics of fluid mechanics, hydraulics, and pneumatics, providing a solid foundation for further study or work in the field.
This practical guide covers the design, installation, operation, and maintenance of hydraulic systems in industrial applications. It includes information on hydraulic components, circuits, and troubleshooting techniques.
Provides a comprehensive overview of the Industrial Internet of Things (IIoT), including the technologies and concepts that are used to create IIoT systems. It covers topics such as sensors, data analytics, and security.
Provides a comprehensive overview of digital twins, including the technologies and concepts that are used to create them. It covers topics such as data modeling, simulation, and visualization.
Provides a comprehensive overview of predictive maintenance, including the technologies and concepts that are used to create predictive maintenance systems. It covers topics such as data analysis, machine learning, and prognostics.
This textbook provides a fundamental understanding of electrical machines, covering the principles of operation, design, and control. It valuable resource for students and researchers in the field of electrical machines.
This textbook provides a fundamental understanding of control systems engineering, covering the principles of control theory, design, and implementation. It valuable resource for students and researchers in the field of control systems engineering.
This textbook provides a fundamental understanding of industrial automation, covering the principles of automation, design, and implementation. It valuable resource for students and researchers in the field of industrial automation.
This textbook provides a fundamental understanding of manufacturing automation, covering the principles of automation, design, and implementation. It valuable resource for students and researchers in the field of manufacturing automation.

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