An Introduction to Windmill and Wind Turbine Design and Manufacturing Processes
The entire world is seeking more energy, including energy generated by wind power. In this course the basic components of a wind turbine are illustrated and explained. The authors discuss the challenges of wind energy economics and conventional versus alternative energy sources. They illustrate how wind power physics and related mathematics guide the design and the manufacturing processes of wind turbines and review how to calculate the maximum efficiency of wind energy conversion."}'>The entire world is seeking more energy, including energy generated by wind power. In this course the basic components of a wind turbine are illustrated and explained. The authors discuss the challenges of wind energy economics and conventional versus alternative energy sources. They illustrate how wind power physics and related mathematics guide the design and the manufacturing processes of wind turbines and review how to calculate the maximum efficiency of wind energy conversion.
What you will learn:
- Review the basic components of wind turbine systems
- Describe how the economic considerations underlying wind power compare to those of conventional sources of energy
- Examine how wind power physics and related mathematics govern the design of wind turbines How to calculate the maximum efficiency of wind power conversion
Related courses:
Who should attend: Electrical Engineer, Design Engineer, Systems Engineer, Product Engineer, Lead Engineer, Project Engineer, QA/Quality, Planning Director, Solution Architect, Data Engineer, Software, Security Engineer, Network Engineer, AI/ML Engineer, Computer Engineer
Instructor
Paul Ranky
Paul Ranky is a Full Tenured Professor of Engineering Design, Manufacturing, Industrial and Management Systems at the Department of Mechanical and Industrial Engineering (MIE) at NJIT, with an additional faculty appointment with NJIT's IT (Information Technology Program), as Professor of IS & IT. Member or former member of SAE, IET, IEEE, PMI, SME, ASME, ISPE, International Soc. of Pharmaceutical Engineers, ASQ, the Lean Manufacturing and the Quality Auditing Dvivisions, educated by ASQ in lean six-sigma, quality leadership, and others.
John K. L. Ho
John K. L. Ho received his BS, MS & PhD degrees in Computer, Control and Manufacturing System Engineering from Coventry University and University of East London. He has many years design experience in the field of automation while working at GEC Electrical Projects Ltd in the UK. At present, Dr. Ho is an associate professor in the Department of Manufacturing Engineering & Engineering Management, City University of Hong Kong. Dr. Ho’s current research interest is in the areas of system sustainability modeling, design for green, intelligent manufacturing for green and industrial ecology.
Publication Year: 2011
ISBN: 978-1-4673-0609-6