Topic outline

  • Introduction to Solar Dish / Engine Systems

    Credits: 2 PDH

    PDH Course Description:

    Dish/engine systems convert the thermal energy in solar radiation to mechanical energy and then to electrical energy in much the same way that conventional power plants convert thermal energy from combustion of a fossil fuel to electricity. They use a mirror array to reflect and concentrate incoming direct normal insolation to a receiver, in order to achieve the temperatures required to efficiently convert heat to work. This requires that the dish track the sun in two axes. The concentrated solar radiation is absorbed by the receiver and transferred to an engine. They are characterized by high efficiency, modularity, autonomous operation, and an inherent hybrid capability (the ability to operate on either solar energy or a fossil fuel, or both). Of all solar technologies, dish/engine systems have demonstrated the highest solar-to-electric conversion efficiency (29.4%), and therefore have the potential to become one of the least expensive sources of renewable energy.

    Topics:

    • System Description
    • Solar Concentrators
    • Tracking Systems
    • Receivers
    • Engines (converts heat to mechanical power)
    • The Dish/Brayton Power Cycle
    • Ancillary Equipment
    • History of the Dish Engine
    • System Applications, Benefits, Impacts
    • Utility (Grid) Application
    • Remote Applications
    • Hybridization with a Fossil Fuel Combustor
    • Environmental Impacts of Solar Dish Engine Systems
    • Technology Assumtions and Issues
    • Research and Development Needs
    • Advanced Development opportunities
    • Performance and Costs
    • Land, Water, and Critical Resource Requirements

    To take this course:

    1.) Enroll in Course: Click below to enroll:
    (must be logged into your user account)


    2.) Study: Once enrolled, click below to begin the course:

    Download the Study Guide

    3.) Test: Once you've thoroughly read the course materials, please click below to take the final examination.

    Take the final exam

    4.) Certificate: A passing grade of 70% or higher on the exam, is required to receive the certificate of completion for this PDH course.
         NOTE: After the exam is completed, you will need to return to this page, in order to print (download) the certificate of completion.

    Print the Certificate of Completion

    Intended Audience: for energy, mechanical, electrical, construction, and civil engineers. However, this course could appeal to engineers of other disciplines as well.. An attendee of this course will gain knowledge about the solar power tower concentrating solar technology.
    Publication Source: US Dept. of Energy

    Harlan Bengtson PhD, PE

    • Topic 1