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Two Phase Flow and Heat Transfer

Gain a phenomenological understanding of two-phase flow and heat transfer in engineering processes and components and compute two-phase flow and heat transfer.

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Two Phase Flow and Heat Transfer
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  • Dec 13 2021-Jan 24th, 2022

    Unlimited

    List $695
    Member $595
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Description

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Participants in this online, instructor-supported course will gain a phenomenological understanding of two-phase flow and heat transfer in engineering processes and components, as well as an ability to compute two-phase flow and heat transfer for common situations. The focus is on single component/two phase systems (e.g., a liquid and its vapor), which is the most common, yet most difficult to model.

The course approaches two-phase flow and heat transfer in a practical way. Advantages and disadvantages of the various models that are being used in purchased programs are explained. Basic quantitative calculation methods will be derived and their use demonstrated throughout the course. 

You Will Learn To

  • Explain the fundamentals of boiling
  • Explain boiling on external and internal surfaces
  • Describe two-phase flow patterns and pressure loss
  • Explain two-phase flow with heat transfer
  • Identify critical heat flux and burnout
  • Describe Flow Instability in two-phase systems
  • Identify conditions for cavitation
  • Describe spray cooling with phase change

Outline
Click HERE to review the course outline.

Required Text
Schaum’s Heat Transfer (2nd edition), by D. R. Pitts and L.E. Sissom.

Who Should Attend
Engineers working in an industrial environment with two-phase systems

To take this course you should have a personal computer, Web browser, Internet connection, and software to display PDF files (such as Adobe Reader®).

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About the Instructors

Dyer Harris, Ph.D., P.E., is the President of Equipment Engineering Services in Wilmington, DE. Until recently, he was also a Senior Consulting Engineer with the Warren Group. He has over thirty years of experience in industrial thermal systems analysis, heat exchangers, process equipment, two-phase flow, and HVAC. As a research engineer for DuPont at the Savannah River Site (SRS), Dr. Harris specialized in heat transfer at high thermal flux in reactors and heat transfer related to nuclear waste processing. As a consulting engineer, he has done forensic engineering investigations and studies for insurance and legal clients. Dr. Harris has been an instructor in fluids and heat transfer for the University of South Carolina-Aiken, Villanova University, and has been on the M.E. faculty at the University of Delaware since 2008, teaching courses in Fluids and Heat Transfer to M.E. students at U of Delaware. He also serves as an Advisor in Senior Design at U of Del. He is a member of the leadership committee for the Delaware ASME Chapter.

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