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eLEARNING
T P se F n He Tr ns er Hy r c Des n L r er P n
Systems
Online Instructor-Supported Course EL510 On ne Se S y C rse EL539
This course studies two-phase flow and heat transfer at a practical level, This course covers the basic fundamentals and flow equations used
seeking to balance theory and analysis with a phenomenological
understanding of the fundamental dynamics. Emphasis is placed on for sizing flow lines or solving the line pressure drop of steady-state
sorting the myriad correlations offered for specific situations, and
estimating the effect of a two-phase flow in common processes with simple hydraulic systems flowing non-flashing incompressible Newtonian
simple mathematics.
liquids or water. The industry’s generally accepted fundamental Darcy’s
You Will Learn To
equation and the empirical Hazen-Williams formula for water flows are
• Explain the fundamentals of boiling
• Explain the process of boiling on external and internal surfaces introduced as the models of calculating the frictional pressure drop. Also
• Describe two-phase flow patterns and pressure loss
• Identify critical heat flux and burnout presented are the underlying principles and commonly used one-dimen-
• Describe flow instability in two-phase systems and cavitation
sional Newtonian isothermal incompressible equations for practicing
22.5 Hours, 2.3 CEUs, 23 PDHs
Member $595 / List Price $695 engineers to perform steady-state hydraulic analysis and calculations for
Heating, Ventilation and Air-Conditioning (HVAC) the liquid and water piping systems. F LU I DS A N D H E AT TR A N S F E R eLearning
On ne Se S y C rse EL538 You Will Learn To
This course is a review of the basic principles of HVAC, including • Explain the basic principles that govern the fluid flow in pipes
psychometrics, sensible heating and cooling, dehumidification and • Perform calculations for various aspects of piping systems
humidification, the adiabatic mixing process, air washers, cooling • Describe pressure drop and flow resistance
towers, ventilation and infiltration load calculations, control components, • Describe the process for pipe selection
refrigeration cycles, heat pumps and refrigeration equipment. The
course will test your knowledge with question sets and a final exam. Who Should A end
You Will Learn To New practicing engineers or experienced engineers entering a new area
of practice or seeking a refresher course in fluid flow or pipe hydraulics
• Describe the properties of moist air
• Explain sensible heating and cooling 10 PDHs
• Describe the process of humidification and dehumidification Member $295 / List Price $395
• Explain the adiabatic mixing process
• Calculate loads for ventilation, infiltration, heating and cooling In r c n e Se ec n P s NEW!
• Explain the different types of refrigeration cycles
• Describe the heat pump and a typical refrigeration system Online Assessment Based Course ZABC42
15 PDHs This course provides an introduction to pumps – the way they work,
Member $295 / List Price $395 different types, and some basic applications. It discusses the flow of flu-
ids through pipes, as well as the variables that affect the flow, and it takes
Introduction to Computational Fluid Dynamics a close look at centrifugal and positive displacement pumps.
Online Instructor-Supported Course EL513 2 PDHs Price $195
This course has six modules and provides detailed explanation of how In r c n e Se ec n V es NEW!
to set up, run and interpret the results of CFD models for eight different
case studies and covers all the necessary theoretical background for Online Assessment Based Course ZABC43
industrial applications of computational fluid dynamics. It is estimated
that in total, the course will require approximately 24 hours of work on This course introduces the different types of valves – the way they work
the part of the student, over the duration of the six-week course. and some of the basic applications. It provides an overview of
the considerations involved when choosing the appropriate valves
You Will Learn To or a system.
• Set up the most appropriate CFD model for the problem in hand 2 PDHs Price $195
• Set up the most appropriate turbulence model for applications
• Explain steady state and transient fluid flow simulations Hy r c Des n e P n C rc NEW!
• Solve both isothermal and non-isothermal thermo-fluid applications
• Solve incompressible and compressible fluid flow applications Online Assessment Based Course ZABC64
• Solve fluid flow through porous media and through rotating machinery
• Extract the required results and plots at the solution stage When designing a hydraulic pump delivery circuit, a working knowledge
of all of the components and how they operate will help ensure
22.5 Hours, 2.3 CEUs, 23 PDHs optimum performance, efficiency and safety, while preventing potentially
Member $595 / List price $695 expensive system malfunctions and damage. Gain information on the
effective design and selection of pumping equipment.
3 PDHs Price $195
Visit go.asme.org/ENAcourses 37
