ECOTECHNOLOGIES

The Ecotechnologies study programme is designed to gain expert knowledge in the field of ecotechnologies. The studies are organised in relation to the R&D projects of the industry, service activities and public sector. Slovenia implemented ...

Programme Description

The Ecotechnologies study programme is designed to gain expert knowledge in the field of ecotechnologies. The studies are organised in relation to the R&D projects of the industry, service activities and public sector. Slovenia implemented the principles of sustainable development in its fundamental research strategy which is supported by a number of legal, economic, ecological and social measures. However, these measures and integration of their effects show a deficit, especially due to the lack of sustainability-oriented and professionally qualified management personnel. The integration of Slovenia into the European Union led to an increased demand for competitiveness in all areas. In the economy, service activities and public sector, it requires a faster and more efficient development and transfer of ecotechnologies, as well as it exercises a stronger orientation towards sustainable development.

In science and education, the importance of connecting basic research with applied research and development in the field of economy, service activities and public sector is significantly larger, and this is exactly what the Ecotechnologies programme is all about. The strategy of sustainable development includes the integration of environmental, technological, economic and social goals, particularly in production and consumption. It is essential to plan, develop and disseminate the use of ecotechnologies (“eco” meaning both ecological and economic), and to implement systematic sustainable market strategies to develop more favourable consumption trends. The essential components of ecotechnological approaches are new procedures and products which include an increasing efficiency in the use of raw materials and energy, minimizing and recycling of wastes, the reduction of adverse environmental impacts of production and transport, and the systematic improvement of the endangered environment.

Characteristic for the proposed programme is the emphasis on the interlinking of basic research with applied research and with the progress in industry and trade, and therefore this study programme is intended, in principle, for candidates who have at least two years of work experience and the support of their employers. The programme is intended to design study and research conditions where theoretical basics on the highest level will intertwine with the efforts to solve real-world problems in the processes of production and decision-making.

This postgraduate study programme offers the acquisition of knowledge and the development of skills for competent research, forming international relationships, and for the management of sustainability-oriented development, and the transfer and application of ecotechnologies.

Emphasis will be placed on threefold ability for:

  • widening and deepening the scientific content, methods and techniques in the selected fields of natural sciences, technologies, engineering and information sciences, which will support strategic choice, development, transfer, optimization, utilization and control of selected ecotechnologies for increasing commercial efficiency while benefiting broader social interests concerning sustainable development;
  • developing the abilities and skills for enhancing the quality of processes, products and services, and increasing the added value, striving for excellence and maximum enforcement of the principles of sustainable development;
  • developing an integral process of thinking which surpasses individual areas and develops multidisciplinary communication skills for dealing with experts from other disciplines and subject areas, comprehensive definition of problems, systematic approaches solving complex problems through teamwork, decision-making under conditions of uncertainty, and long-term target-oriented strategic planning.

Credit Framework (ECTS)

Total number of ECTS for the third-cycle study programme 180 ECTS
Required Courses 65 ECTS
Elective Courses 15 ECTS
Individual Research Work 70 ECTS
Doctoral Dissertation 30 ECTS

Curriculum

1st Year (60 ECTS)

Required Courses (25 ECTS)
Seminar I (10 ECTS)
Tools for the Environmental Quality Control (10 ECTS)

Economics and Society (5 ECTS)

Elective Courses (15 ECTS)
The courses are listed below.

Out of all the courses the student can select max. one general course:
- Industrial Seminar (5 ECTS)
- Science Communication (5 ECTS)
- Contemporary Mathematical and Statistical Methods in Natural Sciences and Engineering (5 ECTS)
- Preparation of Patent Application (5 ECTS)

Individual Research Work 1 (20 ECTS)

2nd Year (60 ECTS)

Required Courses (30 ECTS)

Seminar II (30 ECTS)

Individual Research Work 2 (30 ECTS)

3rd Year (60 ECTS)

Required Courses (10 ECTS)

Seminar III (10 ECTS)

Individual Research Work 3 (20 ECTS)

Doctoral Dissertation (30 ECTS)

Courses

Course Professor ECTS
Advanced Processing of Polymer Composites (ECO3) prof. dr. Uroš Cvelbar 6 ECTS
Chemistry of Environmental Systems (ECO3) prof. dr. Milena Horvat 12 ECTS
Commercialization of Technology prof. dr. Angus Ian Kingon 6 ECTS
Communication in biological systems and its application in a biorational control of pests (ECO3) prof. dr. Andrej Čokl 6 ECTS
Concept of Sustainable Development prof. dr. Ivo Šlaus 3 ECTS
Corporate Law and Dispute Settlement prof. dr. Lojze Ude 3 ECTS
Economics for Researchers prof. dr. Sašo Polanec 3 ECTS
Ecoremediation Technologies (ECO3) prof. dr. Daniel Vrhovšek 6 ECTS
Energy Efficiency in Industry (ECO3) prof. dr. Aviel Verbruggen 9 ECTS
Environmental Biomonitoring (ECO3) prof. dr. Milena Horvat 3 ECTS
Environmental Colloid Chemistry (ECO3) prof. dr. Nives Ogrinc 6 ECTS
Environmental Physics (ECO3) prof. dr. Aleksander Zidanšek 6 ECTS
Environmental Pollution - Selected Topics (ECO3) prof. dr. Milena Horvat 6 ECTS
Environmental Problems in Electronics (ECO3) prof. dr. Barbara Malič 6 ECTS
Environmental Technologies - Selected Topics (ECO3) prof. dr. Peter Glavič 12 ECTS
Environmentally friendly functionalization of organic materials (ECO3) izr. prof. dr. Alenka Vesel 6 ECTS
Fuel Cells (ECO3) prof. dr. Miran Mozetič 6 ECTS
Fundamentals of Green Chemistry (ECO3) doc. dr. Tomaž Skapin 6 ECTS
Hydrology and Environment (ECO3) izr. prof. dr. Sonja Lojen 6 ECTS
Individual Research Work 1 Prof. dr. Predstojnik / Head of Programme 20 ECTS
Individual Research Work 2 Prof. dr. Predstojnik / Head of Programme 50 ECTS
Individual Research Work 3 Prof. dr. Predstojnik / Head of Programme 50 ECTS
Industrial Expert Knowledge and Project Work prof. dr. Gorazd Kandus 3 ECTS
Industry related element speciation (ECO3) prof. dr. Radmila Milačič 3 ECTS
Innovation Management prof. dr. Peter Stanovnik 3 ECTS
Inorganic chemistry: Selected topics (ECO3) prof. dr. Boris Žemva 6 ECTS
Introduction to Environmentally friendly Plasma Technologies (ECO3) prof. dr. Miran Mozetič 6 ECTS
Invasion ecology and importance of interspecific interactions in ecosystems (ECO3) doc. dr. Al Vrezec 6 ECTS
Knowledge Discovery in Environmental Data (ECO3) prof. dr. Sašo Džeroski 6 ECTS
Management of Technology and Innovation (ECO3) prof. dr. Hugo Tschirky 12 ECTS
Mass Occurrence of Toxic Phytoplankton in the Environment (ECO3) prof. dr. Bojan Sedmak 6 ECTS
Materials and Ecology (ECO3) doc. dr. Boštjan Jančar 6 ECTS
Modeling in the Environment (ECO3) prof. dr. Rudolf Rajar 6 ECTS
Monitoring of changes in biodiversity and ecophysiology of subterranean organisms (ECO3) prof. dr. Anton Brancelj 6 ECTS
Nature as a source of chemicals (ECO3) prof. dr. Jernej Iskra 3 ECTS
Nuclear Fusion as an Environmentally friendly Source of Energy (ECO3) prof. dr. Miran Mozetič 6 ECTS
Organic Analysis (ECO3) prof. dr. Ester Heath 6 ECTS
Organic chemistry for the sustainable development (ECO3) prof. dr. Stojan Stavber 6 ECTS
Populations and a population monitoring (ECO3) prof. dr. Davorin Tome 6 ECTS
Preparation of Patent Application prof. dr. Miran Mozetič 3 ECTS
Radioactive Wastes (ECO3) prof. dr. Borut Smodiš 6 ECTS
Radioactive and Nuclear Methods for the Study of Processes (ECO3) prof. dr. Borut Smodiš 6 ECTS
Radiochemistry (ECO3) prof. dr. Ljudmila Benedik 6 ECTS
Radioecology (ECO3) prof. dr. Peter Stegnar 6 ECTS
Risks with Hazardous Materials in Industry (ECO3) izr. prof. dr. Marko Gerbec 6 ECTS
Selected Chapters from Analytical Chemistry (ECO3) prof. dr. Maja Ponikvar-Svet 6 ECTS
Selected topics on Biotechnology (ECO3) prof. dr. Jana Žel 3 ECTS
Seminar I (ECO3) prof. dr. Milena Horvat 10 ECTS
Seminar II (ECO3) prof. dr. Milena Horvat 10 ECTS
Seminar III (ECO3) prof. dr. Milena Horvat 10 ECTS
Sensor Systems (ECO3) prof. dr. Aleksandra Lobnik 5 ECTS
Solar Energy, Geothermal Energy, Hydrogen Economy (ECO3) prof. dr. Peter Novak 9 ECTS
Speciation of elements in biological systems and environment (ECO3) prof. dr. Radmila Milačič 6 ECTS
Strategic environmental assessment (ECO3) prof. dr. Anna Korre 6 ECTS
Stress responses in marine environment (ECO3) doc. dr. Andreja Ramšak 6 ECTS
Systems and Techniques of Decision Support (ECO3) prof. dr. Marko Bohanec 9 ECTS
Systems, Facilities and Materials for Alternative Energy Sources (ECO3) prof. dr. Boris Orel 9 ECTS
Technology Development Management (ECO3) prof. dr. Alojz Sočan 9 ECTS
Tools for the Environmental Quality Control (ECO3) prof. dr. Milena Horvat 12 ECTS
Toxicology in Industry (ECO3) prof. dr. Metka Filipič 6 ECTS
Writing Research Projects akad. prof. dr. Vito Turk 3 ECTS
Writing Scientific Documents prof. dr. Roger H. Pain 3 ECTS
X-ray Structure Analysis doc. dr. Evgeny Goreshnik 6 ECTS

*The course will no longer be carried out from 1 October 2018. More information: info@mps.si.

Basic Objectives

The basic objective of this programme is to qualify the candidate for:

A)  General competences

  • ability for individual research work on the field of ecotechnologies,
  • ability to research, select and organize information, as well as synthesize solution and anticipate their consequences,
  • mastering of research methods, procedures and processes, development of critical and self-critical assessment,
  • ability to use knowledge in practice,
  • autonomy in professional work, as well as responsible and creative performance of activities,
  • development of communication abilities and skills, particularly for communication in international environment,
  • ethical reflection and commitment to professional ethics and regulations,
  • cooperativeness, work on joint assignments and problems within a group and in international environment.

B)  Subject-specific competences

  • knowing the bases of environmental protection techniques, material and energy balance and process systems technology,
  • understanding integrated planning of energy production and distribution in the economic sector, including environmental evaluation of energy consumption and energy processes, management of internal energy systems in connection with the public energy supply system, energy and emissions trading, evaluation of operational and investment/supported improvements,
  • ability to combine various skills and knowledge in identification and analysis of environmental issues, evaluation and decision-making on the use of the environment in relation to development schemes, plans and policies,
  • ability to analyze ethical aspects of practices, institutions and valuations associated with the environment and nature,
  • recognizing the social relevance of scientific knowledge and responsibility of planners for activities interfering with nature, social and cultural environment,
  • understanding the legal aspect of environmental protection, in the European and national legislation,
  • knowing the bases of ecology and ecotoxicology for students without basic education in biology,
  • ability to discover knowledge in environmental data,
  • continuing research & development work in ecotechnologies,
  • knowing the concepts of ecotechnologies,
  • acquiring the bases of natural-science and technical knowledge in ecotechnologies in the form of combining the existing solutions.