The first year of the programme (60 credits) is entirely dedicated to acquiring a broad, comprehensive basis in all core domains of environmental science and technology, divided in five modules:
– Environmental sustainability and policy (climate change, legislation and economic aspects)
– Environmental diagnostics (environmental chemistry, ecotoxicology)
– Environmental technology (water, soil, air, waste)
– Applied ecology (freshwater, marine, microbial)
– Environmental research skills (experimental design, modeling, communication).
In the second year, students need to choose one out of five majors to specialise in (24 credits each):
– Chemicals assessment and management: Environmental contamination with chemical micro-pollutants is of increasing worldwide concern, as it is thought to contribute significantly to human disease and reduced ecological health, including biodiversity loss. In this major, you will learn to improve human and ecosystems health by avoiding or reducing chemical pollution of water, air and soil whilst still enjoying the societal benefits of chemicals.
– Resource recovery technology: We are confronted with ramping environmental problems and resource scarcity, driven by an ever-growing global population and boosted material consumption. In a world with finite resources, making the best possible use of them is paramount to the protection of our environment. The recovery of resources from waste is a critical part of the so-called circular economy model. In this major, you will learn to extract precious resources from waste streams to enable a fully circular society.
– Environmental Health and Technology for Developing Economies Developing economies are increasingly facing environmental degradation due to population growth and rapid urbanization, which may result in a heavy burden of death, disease and disability. In this major, you will learn how to tackle the impacts of environmental degradation on human and environmental health in a developing nations setting. You will also learn how the countries involved can make appropriate technological and policy-related choices to reach economic prosperity in a sustainable way.
– Urban Environmental Management: Although city densification is often considered a need for a growing world population, it also puts a strong pressure on the urban environmental quality and quality of life of citizens. Major environmental challenges in the next decades will be located in the urban environment. In this major, you will learn to tackle current problems in cities and how sustainability can be guaranteed in urban settings in the future.
– Environmental health and technology for marine systems: Marine systems play crucial roles in our global economy with major opportunities for further innovation. Yet at the same time, marine systems provide crucial ecosystem services for human and environmental health. Therefore, the blue economy, requires a sustainable growth strategy for marine and maritime activities that protects resources and the environment. In this major, you will learn how to shape the future of the blue economy and to develop solutions for our oceans and seas.
The master dissertation (30 credits) is also programmed in the second year and is related to the chosen major. Students can either propose their own subject (which could be related to an environmental problem in their own city or country) or choose a subject from a list of available topics. For certain subjects scholarships are available. Finally, students can complete the remaining 6 credits with elective courses (including e.g. academic English) or a short internship with a company in the environmental science and technology sector.