MD in Industrial Engineering (MUII). Qualifying Master's Degree + MD in Nuclear Safety and Radiation Protection
Introduction
The Master's Degree in Industrial Engineering provides students with solid scientific training in various industrial technologies, including Power Generation. It is a qualifying master's degree that trains students in a multidisciplinary way so that they can carry out their professional work in industry, companies, or public bodies, as well as in the free practice of their profession.
In the Master's Degree in Nuclear Safety and Radiation Protection, students acquire skills and abilities in the field of Nuclear Safety and Radiation Protection. Acquiring this knowledge and skills allows MUSNPR students to develop as professionals in different areas of Nuclear Safety and Radiation Protection, for example, in companies and public bodies, hospitals, research centres, industries, etc.
Objectives
The double master's degree allows for the promotion of synergies to improve the acquisition of the objectives of each master's degree. On the one hand, the MUII is a master's degree that qualifies students for the profession of Industrial Engineering, providing them with a relevant scientific background in various industrial technologies, including Power Generation.
On the other hand, the main objective of MUSNPR is for students to acquire skills and abilities in Nuclear Safety and Radiation Protection. Nuclear Safety aims to reduce the probability of an accident and mitigate its consequences. Furthermore, Radiation Protection is a set of multidisciplinary, scientific, and technical activities to protect people and the environment against the harmful effects of exposure to ionising radiation.
Number of credits
156
Master’s structure
The double master's degree is structured in 5 terms. The itinerary to be followed by students is detailed below.
Table 1 MUII itinerary for the double degree with MUSNPR. First year of the MUII.
1st Term A |
ECTS |
1st Term B |
ECTS |
|---|---|---|---|
33809- Heat, Cooling and Air Conditioning. |
5,25 |
33814- Energy and Thermal Machines Extension. |
4,5 |
33805- Business Administration. |
6 |
33806- Construction, Architecture, and Industrial Planning. |
5,25 |
33804- Operations Management. |
4,5 |
33803- Project Management. |
4,5 |
33810- Fluid Installations. |
4,5 |
33807- Design and application of Industrial Equipment. |
7,5 |
33813- Instrumentation and Industrial Control. |
4,5 |
33811- Generation, Transmission and Distribution of Electricity. |
4,5 |
33812- Chemical Industrial Technology. |
4,5 |
33808- Manufacturing Technology.. |
4,5 |
Total |
29,25 |
|
30,75 |
Table 2 MUII itinerary for the double degree with MUSNPR Second year of the MUII.
2nd Term A |
ECTS |
2nd Term B |
ECTS |
3rd Term A |
ECTS |
|---|---|---|---|---|---|
33705- Nuclear Energy and Radiation (speciality power generation) |
6 |
33709- Nuclear Safety (specialisation in Power Generation, nuclear engineering complements) |
4,5 |
Remaining MUSNPR courses from the list in Table 3 of marked with (*) |
15 |
Remaining MUII courses (specialisation in Power Generation) |
24 |
33708- Reactor Physics (specialisation in Power Generation, nuclear engineering complements) |
4,5 |
MUSNPR TFM |
12 |
Minimum enrolment of 9 ECTS of MUSNPR courses from the list in Table 3 marked with (*) |
9 |
33787- Probabilistic Risk Analysis (module 13 elective) |
4,5 |
Recognition of MUSNPR courses: 35387- Nuclear Energy and Radiation 35388- Nuclear Safety 35389- Reactor Physics 35396- Probabilistic Risk Analysis 35390- Nuclear Thermohydraulic. |
|
|
|
33799- Introduction to thermohydraulic and its applications (Elective) (module 13 elective) |
4,5 |
|
|
|
|
MUII TFM |
12 |
|
|
Total |
39 |
|
30 |
|
27 |
In the 2nd A of MUII, the student must enrol in at least 9 ECTS of these MUSNPR courses. The student will enrol in the remaining MUSNPR courses in the following term.
Table 3 MUSNPR courses.
1st Term A |
ECTS |
1st Term B |
ECTS |
|---|---|---|---|
35387- Nuclear Energy and Radiation. |
6 |
35388- Nuclear Safety. |
4,5 |
35386- Radiation Protection in Radioactive and Nuclear Installations (*). |
4,5 |
35389- Reactor Physics. |
4,5 |
35393- Numerical Methods and Medical and Industrial Applications (*). |
6 |
35396- Probabilistic Risk Analysis. |
4,5 |
35391- Nuclear Fusion and Advanced Reactors (*). |
4,5 |
35390- Nuclear Thermohydraulic. |
4,5 |
35392- Natural Radioactivity and Radiochemical Methods (*). |
4,5 |
35397-MSNPR TFM. |
12 |
35394- Nuclear and Radioactive Materials Management, Dismantling and Waste Management (*). |
4,5 |
|
|
Total |
30 |
|
30 |
Aimed at:
Students enrolled at the Master's Degree in Industrial Engineering (MUII) pathway of access to Bachelor's Degree in Industrial Technologies Engineering (GITI).
Specialisation
MUII - Specialisation in Power Generation, complements in Nuclear Engineering.
MUSNPR- No speciality.
Admission criteria
Applications for admission to the double master's degree will be assessed by the Academic Committee of the Master's Degree in Nuclear Safety and Radiation Protection, and the following requirements must be met:
- Being enrolled in the Master's Degree in Industrial Engineering (MUII) in the access to Bachelor's Degree in Industrial Technologies Engineering (GITI).
- Having passed 70% of the credits of the first year of the MUII, GITI access.
The MUSNPR Academic Committee will evaluate applications that meet the above access conditions in accordance with the merit assessment and selection criteria described below.
- Academic record (40% weight).
- Adequacy of previous studies (50% weight).
- CV: Curriculum Vitae (10% weight).
a)Academic record (40% weight).
The evaluation of the academic record will be expressed in a score on a scale from 0 to 10. It will be obtained from the average grade of the record of the Bachelor's Degree with which the applicant accesses the Master's degree by the provisions of Article 5.3 of Royal Decree 1125/2003, which establishes the European credit system and the system of qualifications in university degrees of an official nature and valid throughout the national territory. Credits recognised without a mark are not counted to obtain the aforementioned average grade. To make the qualifications of different Universities, Centres, Degrees, and promotions comparable, the conditions regulated by the UPV will standardise the average grade of each file. In the case of records graded on scales other than those indicated in RD 1125/2003, the Academic Committee of the Governing Council will establish the corresponding equivalences.
b)Appropriateness of previous studies for access to the Master's Degree (50%)
The suitability of the contents of the academic curriculum of the Bachelor's Degree with which access to the Master's Degree in Nuclear Safety and Radiation Protection is requested will be assessed. This assessment will be carried out by the Academic Committee of the Master's Degree. The evaluation will be expressed as a score on a scale of 0 to 10.
The assessment of the degree of suitability of the access studies to the Master's Degree in Nuclear Safety and Radiation Protection will be as follows:
- University Degrees in Engineering: Industrial Technologies, Materials, Energy, Chemistry, Mechanics, Electricity, Electronics: 10 points.
- University Degrees in Physical Sciences and Chemical Sciences: 10 points.
- Other University Degrees in Engineering: 7.5 points.
- Graduates in Engineering (Industrial, Chemistry, Mechanics, Materials, Electricity and Electronics) according to the previous University Academic Organization Rules: 10 points.
- Graduates in Physical Sciences and Chemical Sciences according to the previous University Organization Rules: 10 points.
- Graduates in other Engineering according to the previous University Organization Rules: 7.5 points.
c)CV: Curriculum Vitae (10% weight).
The applicant's Curriculum Vitae will be assessed, especially in those aspects related to work experience in the field of the Master's Degree, continuous training and knowledge of foreign languages. The assessment criteria will be proposed by the Master's Academic Committee and approved by the Academic Committee of the Governing Council. The assessment will be expressed with a score on a scale of 0 to 10. Considering the three criteria outlined above in the final evaluation is recommended. However, the CV assessment may be subjective or increase the complexity of the admission system in situations where the available deadlines will undoubtedly be very tight.
All applications received will be ranked according to the weighted score obtained. As many applicants will be admitted as places are offered, in strict order of priority. In the event of resignations, and provided that there are applications on the waiting list, the vacancies will be filled until the number of places or the waiting list is exhausted, following the order of priority established above.
Admission for students with disabilities.
For students with specific educational needs derived from disability, appropriate support and counselling services will be established to assess the needs for curricular adaptations, itineraries or alternative studies through the support of the UPV's CEDAT foundation.
Organisation
Participants
Master's Degree in Industrial Engineering (MUII).
Master's Degree in Nuclear Safety and Radiation Protection (MUSNPR)
