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MASTER'S DEGREE APPLIED TO RADIATION PROTECTION IN RADIOACTIVE AND - PowerPoint PPT Presentation

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MASTER'S DEGREE APPLIED TO RADIATION PROTECTION IN RADIOACTIVE AND NUCLEAR FACILITIES Presented by: Patricia Mayo INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN

  1. MASTER'S DEGREE APPLIED TO RADIATION PROTECTION IN RADIOACTIVE AND NUCLEAR FACILITIES Presented by: Patricia Mayo

  2. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIATION PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES. 2

  3. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIATION PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES. 3

  4. PRESENTATION OF THE MASTER DIRECTION AND COORDINATION COLLABORATING ENTITIES 4

  5. PRESENTATION OF THE MASTER CHARACTERISTICS OF THE MASTER COURSE Contents: modular structure (65 ECTS): - General Module - Specific Module in Radioactive Facilities - Specific Module in Nuclear and Fuel Cycle Facilities - Advanced Module The master contents are based in the theoretical and practical training required for the positions of Head of Radiation Protection Units (CSN IS-03). Mode: Blended Learning Qualification: Qualification recognised by the Polytechnic University of Valencia and the collaborating entities. 6 th Course of the Master: Start: October 3 th 2016; End: July 14 th 2017 5

  6. PRESENTATION OF THE MASTER TECHNICAL COORDINATORS: LECTURERS • General Module: Sergio Gallardo • General module: David Reinado, Alegría Montoro, Juan Campayo, Javier Rivero, Radioactive Facilities Module : Juan Campayo Guillermo Baeza, José Peiró, Belén Juste, Gumersindo Verdú, Trinidad Cortina, • Sergio Gallardo, Rafael Miró, Luisa Ballesteros, Josefina Ortiz, Patricia Mayo. Nuclear Facilities Module : Rafael Miró • • Specific module: Radioactive facilities: Gumersindo Verdú, Juan Campayo, • Advanced Module Gumersindo Verdú < Trinidad Cortina, Guillermo Baeza, Jose Antonio Madrid, Javier Rivero, Belén Juste, Sergio Gallardo, Patricia Mayo, Rafael Miró, Patricia Mayo. • Specific module: Nuclear and fuel cycle facilities: Sergio Gallardo, Rafael LOGISTIC COORDINATORS: Miró, Ramiro Fragio, Gumersindo Verdú, Jose Peiró, Enrique Pedrón, Sergi • Mónica Martínez, MªLucía Ferreres Margalef, Juan Campayo, Patricia Mayo. • Advanced module: Rafael Miró, Javier Tenajas, Josefina Ortiz, Juan Campayo, Alfredo Mozas, Gumersindo Verdú, Ramiro Fragio, Sergi Margalef, Luisa E-LEARNING PLATFORM COORDINATOR : Ballesteros, Josefina Ortiz, Borja Bravo , Patricia Mayo. • Javier Martínez GENERAL COORDINATOR Patricia Mayo DIRECTOR : Gumersindo Verdú CO-DIRECTOR : Juan Campayo

  7. PRESENTATION OF THE MASTER 6 th COURSE OF THE MASTER IN RADIATION PROTECTION -General Module -General Module -Module on Radioactive Installations -Radioactive Installations Module - Nuclear Installations Module -Module on Nuclear Installations -Advanced Module -Advanced Module -Policonecta sessions planned: attendance or remote -Poly-connection sessions planned: -Practical sessions at specific Installations, seminar prior to attendance or remote exam and final exam -Sessions in attendance (practical, recap seminar prior to exam and exam) 7

  8. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIATION PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES 8

  9. CONTENTS GENERAL MODULE • Advanced Radiation Physics. • Detection and Measurement of Ionising Radiation. • Biological Effects of Ionising Radiation. • Radiation Dosimetry. • General Radiological Protection. • Operational Radiological Protection. • Regulatory Contents. • Waste Management. • Radioactive Material Transport. • Practical Sessions at specific facilities based on General Module contents (Practical exercises, demonstrations and visits to facilities) 9

  10. CONTENTS SPECIFIC MODULE: RADIOACTIVE FACILITIES (INDUSTRIAL, MEDICAL AND RESEARCH) • Industrial Installations. • Nuclear Medicine Installations. • Radiotherapy Installations. • Radiodiagnosis Installations. • Research Installations. • Practical Sessions at specific facilities based on Radioactive Installations Module contents (Practical exercises, demonstrations and visits to facilities) 10

  11. CONTENTS SPECIFIC MODULE: NUCLEAR AND FUEL CYCLE FACILITIES • General Characteristics of Nuclear and Fuel Cycle Installations. • Safety at Nuclear and Fuel Cycle Installations. • Operational Radiological Protection. • Specific Regulatory. • Practical Sessions at specific facilities based on Module on Nuclear and Fuel Cycle Installations contents (Practical exercises, demonstrations and visits to facilities) 11

  12. CONTENTS ADVANCED MODULE • Calculation of Shielding using Advanced Software. • Internal Dosimetry. • Environmental Issues. Measurement of Radioactivity. • Natural Radioactivity: NORM. • Radiological and Nuclear Emergencies. • Atmospheric Dispersal (advanced level). • ALARA at Nuclear Installations. • Decomissiing of Nuclear Installations. • Practical Sessions at specific facilities based on Advanced Module contents (Practical exercises, demonstrations and visits to facilities) • Project work (End of Master Course). 12

  13. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIATION PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES. 13

  14. EVALUATION STRUCTURE MODULE -E-LEARNING CONTENTS (Online Platform: POLIFORMAT) AREA • Follow multimedia content and complementary material. • Participation in Forums. • Mandatory test and exercises. • Mandatory attendance and participation in Policonecta sessions (review and online exam). -CLASSROOM SESSIONS: • Practical sessions. • Review end module session • Exam module

  15. E-LEARNING TOOLS POLIFORMAT Technology Platform (http://poliformat.upv.es ) 15

  16. E-LEARNING TOOLS POLIMEDIA: Multimedia Contents POLICONECTA: Remote Classes USE OF SOFTWARE: Tutorial 16

  17. E-LEARNING TOOLS FOLLOWING OF MASTER VIA POLIFORMAT Use of Master Tools Average Scoring of Activities 17

  18. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIOLOGICAL PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES. 18

  19. EXPERIENCE OBTAINED IN THE MASTER STUDENTS PROFILE: PREVIOUS ACADEMIC EXPERIENCE 2011/2012 Course 2012/2013 Course 2013/2014 Course 2014/2015 Course 2016/2017 Course 2015/2016 Course � Technical or scientific background (engineers (mainly industrial), physicists..) 19

  20. EXPERIENCE OBTAINED IN THE MASTER STUDENTS PROFILE : ORIGIN 2011/2012 Course 2012/2013 Course 2013/2014 Course 2014/2015 Course 2016/2017 Course 2015/2016 Course � On average, only 40% of the students are from Valencia (and this percentage has been lower in last courses). 30% of students are from Latin America, and another 30% from other regions of Spain.

  21. EXPERIENCE OBTAINED IN THE MASTER STUDENTS PROFILE: OCCUPATION 2011/2012 Course 2012/2013 Course 2013/2014 Course 2014/2015 Course 2016/2017 Course 2015/2016 Course � As an average , most of the students are employed Between 2012 and 2015, the percentage of unemployed participants was higher.

  22. INDEX 1. PRESENTATION OF THE MASTER: DIRECTION AND COORDINATION. COLLABORATING ENTITIES 2. STRUCTURE OF THE MASTER IN RADIOLOGICAL PROTECTION 2.1. CONTENTS 2.2 E-LEARNING TOOLS 3. EXPERIENCE OBTAINED IN THE FIRST YEARS OF THE MASTER 4. CONCLUSIONS AND FUTURE PERSPECTIVES. 22

  23. CONCLUSIONS • Master’s approach: Modality: Blended learning: Online + classroom contents � Professional experts from the collaborating institutions participate in the master so their knowledge transferred to theoreticaland practical approach is essential. � Students can develop their Project work (End of Master Course) with the collaborating entities � higher interaction with the contents and � Technical background: Most of the students are Engineers, Physicists, Chemists.. � Location: 30% of students are from Latin America, and another 30% from other regions of Spain. • Future perspectives: � 7th course of the UPV’s Master’s Degree in Radiation Protection in Radioactive and Nuclear Facilities will start on 2 October 2017 and end on July 2018. � The possibility to improve and adapt of this master to other contexts to be available internationally 23

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