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Turbo Machinery Dynamics: Design, Analysis and Fabrication of
Design and Operation Composite Structure, Energy and
Machine Applications
PD432
PD567
This course presents a detailed and comprehensive treatment of
D E S I G N A N D M ATE R I A L S Public Courses operation and maintenance of turbo-machinery. This course provides an in-depth presentation of design, analysis and
manufacturing methods for composites, with an emphasis on polymer
Starting with the fundamentals of thermodynamics and cycle design, matrix composites, which are the most widely used.
the latest trends in development and production of many different Industrial applications are now the largest user of composites, outstripping
types of turbo-machines are covered. In-depth methods to analyze and aerospace and sports equipment. There are a vast and an increasing
explore new operation and maintenance procedures, minimize exhaust number of applications, including wind turbines, energy storage flywheels, oil
emissions and maximize structural integrity and operating e ciency and natural gas exploration and production, natural gas and hydrogen
are presented. vehicle storage tanks, fuel cells, high-speed and precision machinery,
robots, coordinate measuring machines, optomechanical systems,
The ever-increasing quest for electrical and mechanical power, coupled semiconductor manufacturing equipment, automobile and truck engines,
with stricter restrictions on environmental pollutants, require exacting bodies, brakes and clutches, energy storage flywheels, gas turbine
consideration of natural resources. Creative technological solutions engines, process industries equipment, heat exchangers, data storage
are needed to optimize operation and achieve, oftentimes, con icting equipment, X-ray and other medical diagnostic equipment, prosthetics
goals. This course teaches methods, which explain the wide range of and orthotics, as well as electronic and optoelectronic packaging.
parameters, as well as how to take advantage of the latest technical
advances. Emphasis is placed on controlling operating parameters, In addition to outstanding strengths and stiffnesses and low densities,
interpreting and comparing alternatives and obtaining realistic solutions. composites offer unique and tailorable physical properties, including
thermal conductivities that range from very low to many times that of
Specially prepared notes and the instructor’s textbook Turbo-Machinery copper and thermal expansions that can be varied from high to near
Dynamics: Design and Operation will be provided to all participants zero. Electrically conducting and insulating materials are available.
on a computer disk, as well as a bound copy of the course notes. The Composites and other advanced materials, some with ultra-high thermal
electronic notes and textbook are linked for instant access and in-depth conductivities, are now used in thermal management applications, such
study from the notes directly to the specific page of the book through as motor cover/heat sinks, servers, notebook computers, power
electronic bookmarks. Attendees will also receive computer codes with modules, plasma displays, printed circuit boards, heat sinks, laser diode,
instructions for simulating and analyzing rotating machinery problems, LED and photovoltaic packaging.
parameter measurement and balancing of rotors.
Composites include a wide range of polymeric, metallic, ceramic and
You Will Learn To carbon materials having both high and low-temperature capabilities.
• Describe fuel consumption, power output and exhaust gas emissions You Will Learn To
• Explain structural integrity and component life evaluation
• Identify operating loads, component de ections, rotor-to-stator rub • Understand the advantages, disadvantages and properties of the four
• Explain the process of manufacturing and assembly methods, balancing classes of composites: polymer matrix-, metal matrix-, ceramic matrix-
and carbon matrix-
of rotors
• Explain the test verification of design parameters and fault diagnosis • Explain key reinforcements and matrix materials
• Identify failures arising from cyclical loads and thermal distortion • Understand evolutionary advances in thermal management and heat
• Identify material requirements and selection
transfer materials
Who Should A end • Understand industrial, commercial and aerospace/defense applications
• Design cost-effective, reliable products while avoiding common pitfalls
Design and development engineers, plant engineers, field service • Understand analysis and manufacturing methods, along with
engineers and technical managers with product and/or project
responsibility applications, nondestructive evaluation, lessons learned and future
trends, including nanocomposites
Special Requirements
Who Should A end
Individuals familiar with calculus and personal computers – along with a
Bachelor s degree or equivalent work experience will have su cient Design engineers, analysts, materials engineers and scientists,
background for this course. It is recommended that participants bring a manufacturing engineers, quality assurance engineers, engineering
laptop to the course. managers, R&D engineers and scientists as well as product development
engineers in the power generation and storage, automotive, aerospace/
Instructor Abdulla S. Rangwala defense, process industries, heat transfer, high-speed machinery,
5 Days, 3.8 CEUs, 38 PDHs precision machinery, optomechanical systems, sports equipment,
Member 2,77 List Price 2,89 biomedical engineering, medical equipment, including X-ray,
computer-aided tomography, magnetic resonance imaging, electronic,
laser diode LED and photovoltaic packaging industries
Instructor Carl Zweben 0
2 Days, 1.5 CEUs, 15 PDHs
Member 1,4 0 List Price 1,
20
