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Sustainable Built Environment (Doctoral Program) 2020/2021

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General


Academic degree:
ECTS:
180
Duration:
6 curricular semesters
Regime:
Daytime
Place:
Azurém Campus, Guimarães (UM)
Main Scientific area:
  • Sustainable Built Environment

Contacts


    School of Engineering
    Campus de Azurém
    4800-058 Guimarães

    Tel: +351 253510179 / 253510160 Fax: +351 253510178
    E-Mail: cp@eng.uminho.pt
    URL: http://www.eng.uminho.pt

Description


The main goal of the doctoral programme is to provide a high level specialized advanced training in order to develop in the doctoral candidates the ability to contribute to the advancement of knowledge in the field of sustainable built environment, through creative and autonomous investigation.
The doctoral candidates should achieve the following outcomes:
- High quality knowledge in the area of their individual research topic;
- Interpersonal/teamwork, self-management and professional development skills in a sustainable built environment context;
- Academic values: inquiry, critical reflection, integrity, open mindedness, evidence-based thinking, collegiality;
- Take responsibility for self-managed learning and personal/professional development;
- Integrate fundamental research with applied perspectives;
- Integrate multiple stakeholder perspectives in the transformation of a problem to a research question;
- Ability to plan and implement investigation interdisciplinary projects;
- Capability to apply, produce and evaluate scientific knowledge/information in the sustainable built environment;
- Proactive attitude with respect to changes and improvements in the framework of economic development and international competitiveness;
The International Doctorate in Sustainable Built Environment is structured in 3-years period, awarding 180 ECTS. The first year is the probation period, consisting of a coursework part of 4 courses - and the project of the Thesis. After obtaining approval in this Probation Period and after the approval of the Personal Study Plan by the Scientific Committee, students are allowed to start the Thesis. In order to be able to start the second year of the doctoral programme the doctoral candidates need to get approval in the 60 ECTS of the probation period. The second year
consists in the continuation of the coursework part of 2 courses and the start of the Dissertation. The third year consists in the continuation of the development of the Dissertation work and respective conclusion.

Key learning outcomes


The following objectives should be achieved:
- Provide European and third country higher education institutions with high qualified experts on sustainable
building and improve European research in sustainable building;
- Provide the doctoral candidates with a holistic vision of sustainable construction that goes beyond the classical
practice of building construction, developing an integrated approach for the construction sector that includes environment preservation, energy and materials performance (0-energy and 0-emission goals), safety, functional performance (comfort and use) and cost optimisation.

Access to higher education


The conclusion of this PhD course allows the accomplishment of research activity at postdoctoral level.

Careers


Potential employability in companies / institutions that are dedicated to the planet's environmental needs, taking into account the objectives of the European Union, which increasingly incorporates in its policies measures that meet the requirements of sustainable construction, this type of construction is an added value which construction companies have to submit.

Access


20

Vacancies

5

Minimum

Access forms


Access to this cycle of studies requires an application to the School of Engineering of the University of Minho. 

This information does not replace consultation of the Academic Regulations of the University of Minho and other official documents.

Formal requirements


The minimum requirements for applying to International Doctorate in Sustainable Built Environment are as follows: A Master Degree with a minimum grade of “B–” in the ECTS grading scale (at least a score of 70%), from a field in the scope of this doctoral programme. A fluent communication in English is required. Students from non-English speaking countries are required to have one of the following certificates: TOEFL certificate paper based (minimum score 525), TOEFL certificate internet based (minimum score 72), IELTS certificate (academic version, minimum score 6.5) or other recognized English language proficiency certificate.

Aditional Information


Study Plan


Regime Curricular Unit Scientific Area ECTS
Year 1 60
A Thesis Project SAC 40
S1 Opção Avançada 1 5
Ecology and Sustainability of Constructions EC 5
Inspection and Diagnosis CEngCiv 5
Multi-field and Multi-scale Modeling for Service Life of Structures EC 5
Performance of Buildings SAC 5
Sustainable Building Project Management EC 5
Sustainable Facility Management EC 5
Techniques for Computer Simulation of Heat and Moisture Transfer in Construction Elements EC 5
Technology Innovation of Constructions EC 5
S1 Opção Avançada 2 5
Ecology and Sustainability of Constructions EC 5
Inspection and Diagnosis CEngCiv 5
Multi-field and Multi-scale Modeling for Service Life of Structures EC 5
Performance of Buildings SAC 5
Sustainable Building Project Management EC 5
Sustainable Facility Management EC 5
Techniques for Computer Simulation of Heat and Moisture Transfer in Construction Elements EC 5
Technology Innovation of Constructions EC 5
S1 Opção Fundamental 1 5
Innovation Management CTC 5
Leadership CTC 5
Scholarly Communication CTC 5
Innovation and BioBusinesses CTC 5
Lean Thinking for the transformation of the Organizations CTC 5
Operational Excellence CTC 5
Project Management CTC 5
Quantitative and Qualitative Methods in Engineering CTC 5
Research Designs for Science and Technology CTC 5
Research Methods in Engineering CTC 5
Risk Management in Engineering Systems CTC 5
Sustainable Development in Engineering CTC 5
S1 Opção Fundamental 2 5
Innovation Management CTC 5
Leadership CTC 5
Scholarly Communication CTC 5
Innovation and BioBusinesses CTC 5
Lean Thinking for the transformation of the Organizations CTC 5
Operational Excellence CTC 5
Project Management CTC 5
Quantitative and Qualitative Methods in Engineering CTC 5
Research Designs for Science and Technology CTC 5
Research Methods in Engineering CTC 5
Risk Management in Engineering Systems CTC 5
Sustainable Development in Engineering CTC 5
Year 2 60
A Thesis SAC 50
S1 Opção Avançada 3 5
Ecology and Sustainability of Constructions EC 5
Fibrous Reinforced Materials for Sustainable Construction Systems and Renovation Strategies EC 5
Management Systems for Construction Assets EC 5
Risk Assessment and Management EC 5
Sustainable Building Project Management EC 5
Sustainable Concrete Design EC 5
Sustainable Efficient Building Conception and Construction EC 5
Sustainable Facility Management EC 5
Sustainable Geotechnical Design EC 5
Sustainable Infrastructures Design, Conception and Cosntruction EC 5
Sustainable Masonry Design EC 5
Sustainable Steel Design EC 5
Sustainable Structures - Development, Conception and Validation EC 5
Sustainable Timber Design EC 5
Sustainable Transport Infrastructures EC 5
Technology Innovation of Constructions EC 5
S1 Opção Avançada 4 5
Ecology and Sustainability of Constructions EC 5
Fibrous Reinforced Materials for Sustainable Construction Systems and Renovation Strategies EC 5
Management Systems for Construction Assets EC 5
Risk Assessment and Management EC 5
Sustainable Building Project Management EC 5
Sustainable Concrete Design EC 5
Sustainable Efficient Building Conception and Construction EC 5
Sustainable Facility Management EC 5
Sustainable Geotechnical Design EC 5
Sustainable Infrastructures Design, Conception and Cosntruction EC 5
Sustainable Masonry Design EC 5
Sustainable Steel Design EC 5
Sustainable Structures - Development, Conception and Validation EC 5
Sustainable Timber Design EC 5
Sustainable Transport Infrastructures EC 5
Technology Innovation of Constructions EC 5
Year 3 60
A Thesis SAC 60

Assessment/Accreditation


A3ES Accreditation status:
Accredited
Resolution publication date:
12-04-2019
Registry number at Ministry:
R/A-Cr 111/2013
Registry Date:
04-07-2013
Accreditation validity:
30-07-2024