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Engineered Materials for Nuclear Waste Management and Final Geological Disposal

What Will Learn?

  • Course Aims
  • Course Goals
  • Good Health and Well-being
  • Quality Education
  • Gender Equality
  • Clean Water and Sanitation
  • Affordable and Clean Energy
  • Decent Work and Economic Growth
  • Industry, Innovation and Infrastructure
  • Reduced Inequality
  • Sustainable Cities and Communities
  • Responsible Consumption and Production
  • Climate Action
  • Life Below Water
  • Life on Land
  • Peace and Justice Strong Institutions
  • Partnerships to achieve the Goal

Requirements

MDP151

Description

  • English Description

    Introduces scientific and engineering aspects of using advanced materials for nuclear waste management applied to reactors and the fuel cycle. Includes spent nuclear fuel aging, separation processes in reprocessing (aqueous, pryo, and molten salt), and waste treatment processes. Addresses management of radioactive wastes, including waste forms, classification, fundamental principles, governing equations for radionuclide transport in the environment, performance assessment of geological waste disposal systems, and implications of advanced fuel cycles.
  • Arabic Description

    Introduces scientific and engineering aspects of using advanced materials for nuclear waste management applied to reactors and the fuel cycle. Includes spent nuclear fuel aging, separation processes in reprocessing (aqueous, pryo, and molten salt), and waste treatment processes. Addresses management of radioactive wastes, including waste forms, classification, fundamental principles, governing equations for radionuclide transport in the environment, performance assessment of geological waste disposal systems, and implications of advanced fuel cycles.
  • Department
    Design and Production Engineering
  • Credit Hours
    3
  • Grades
    Total ( 100 ) = Midterm (25) + tr.Major Assessment (30 = tr.Industry 10% , tr.Project 0% , tr.Self_learning 0% , tr.Seminar 25% ) + tr.Minor Assessment (5) + Exam Grade (40)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 2, Lab Hours: 0
  • Required SWL
    125
  • Equivalent ECTS
    5
  • - Narendra Kumar and Sunita Kumbhat, Essentials in Nanoscience and Nanotechnology, 2nd Edition, Wiley press, 2016 (ISBN: 9781119096115) - Narendra Kumar and Sunita Kumbhat, Essentials in Nanoscience and Nanotechnology, 2nd Edition, Wiley press, 2016 (ISBN: 9781119096115).